SMART AND SUSTAINABLE INDUSTRY

Industry 4.0 enhances the efficiency of production processes through technologies based on connectivity, digitalization, and advanced real-time data analytics. Industry 5.0 will focus on human-machine collaboration, promoting a greater degree of automation through AI and robotics to optimize processes.

INDUSTRY 4.0

Industry 4.0, also known as the fourth industrial revolution, is transforming the global economy and the way companies operate across various industries. The technologies of this revolution enable businesses to be more agile, efficient, and sustainable. A prominent feature of Industry 4.0 is the use of connected technology that provides real-time data, optimizing processes through data analysis tools and improving quality.

INDUSTRY 5.0

Industry 5.0, the next big step, will focus on the collaboration between humans and machines. This approach will maximize human capabilities and promote a more automated, safe, and efficient workforce. Advanced technologies, such as artificial intelligence and autonomous robotics, will complement people in new areas. Companies will implement self-learning systems to make processes even more efficient and automated.

Additionally, the growing use of virtual and augmented reality will enhance industrial maintenance tasks or work instructions, making them more interactive and clear. All these advancements will help companies respond more quickly to changing market conditions and develop innovative products faster.

It is important to understand that the introduction of Industry 5.0 does not mean that it will completely replace Industry 4.0. Rather, it will strengthen current capabilities, making companies more agile and prepared for the future. Another goal is to further enhance networking and collaboration throughout the entire value chain to create a closer connection between customers, suppliers, and partners. Data security will be a priority in this new technological landscape.

Industry 5.0 offers companies across all sectors enormous opportunities to continue succeeding in an increasingly digitalized world and to open new markets. Sensors and smart manufacturing technology play a crucial role in interconnection along the entire value chain, thus facilitating collaboration between customers and suppliers and promoting efficient and specific work. Companies that prepare for these developments and invest in these technologies can gain a decisive competitive advantage.

CUSTOMERS IN SMART AND SUSTAINABLE INDUSTRY

TECHNOLOGIES APPLIED IN SMART AND SUSTAINABLE INDUSTRY

Digital systems for Industry 5.0.

Industry 5.0 encompasses three core values: putting humans at the center, resilience, and sustainability. It includes various enabling technologies that support industrial transformation, such as digital twins, cobots, and customization. Key technologies like artificial intelligence (AI), the Internet of Things (IoT), robotics, 5G, and augmented reality (AR) play a central role.

Industry 5.0 offers a variety of advantages that go beyond previous industrial revolutions. One of the greatest benefits is increased efficiency through the integration of artificial intelligence (AI) and automation, which optimize production processes and minimize errors. Flexibility is enhanced through collaboration between humans and machines, enabling customizable and adaptable production solutions. Furthermore, the use of real-time data and connected systems leads to better decision-making and a quicker response to market changes. Sustainability is promoted through more efficient resource use and waste reduction.

Energy intelligence in factories

Artificial intelligence is increasingly used in the energy industry and is considered to have great potential for designing energy consumption in the industrial sector. The prerequisites for greater use of AI in energy systems are the digitization of the factory or production line from an energy perspective and, consequently, a large dataset that can be evaluated.

In the context of a growing focus on sustainability, Artificial Intelligence in the energy sector is also playing a crucial role in the integration and management of renewable energy resources, such as photovoltaic self-consumption. The ability to monitor and control energy systems in real time is a key benefit of smart energy.

Another of the most powerful capabilities of artificial intelligence applied to energy management is demand forecasting and managing elements that provide flexibility, such as energy storage units linked to renewable generation. This capability allows companies to proactively adjust their production, optimizing the use of energy resources and even moderating demand peaks in certain situations.

Connected and intelligent machines

Manufacturing technologies have been developing at a dizzying pace in recent years. Especially networking is taking modern production to a whole new level. Smart factories are production environments where machines, processes, and entire interconnected ecosystems are optimized through data collection and analysis. The Industrial Internet of Things (IoT) is the key that now unlocks all previously hidden potential. When machines and their environment are connected with sensors via the Internet, useful insights for production can be derived from the volumes of data. This way, manufacturing processes will become more automated, flexible, and efficient.

With flexibility, the complexity of work processes increases, for example, due to a growing number of suppliers, smaller production units, and different time windows for production. Thus, artificial intelligence and cybersecurity will play an increasingly prominent role in networked production.

Industry 5.0 marks a significant step in the evolution of industrial revolutions. By emphasizing the human element and promoting sustainability and adaptability, it offers a holistic approach to the challenges of modern production. The integration of advanced technologies such as AI, IoT, and machine learning with human creativity and problem-solving skills promises to fundamentally change and improve the way we produce.

Industry 5.0 is characterized by unprecedented levels of connectivity. Advanced communication technologies, such as 5G, play a central role in ensuring seamless connections between machines and people. This high-speed, low-latency connectivity is essential for real-time data exchange and enables rapid decision-making and responsiveness.

For example, most current factories have at least some IoT devices integrated into their infrastructure. With an unstable or weak Internet connection, this technology is nearly useless, but thanks to 5G, strategic decisions resulting from data collected through an IoT network will help decision-makers make choices for smarter manufacturing.

Immersive solutions for the industry

Virtual reality (VR) transports the user anywhere, while augmented reality (AR) brings everything closer to the user. The terms are limited to blending the real and the digital in varying degrees: while augmented/mixed reality (AR/MR) adds digital elements to reality, virtual reality (VR) completely suppresses reality in favor of the digital. The terms digital reality (DR) and extended reality (XR) are used as umbrella terms for all forms.

In an operational manufacturing context, AR applications are used for training and professional development, especially in high-risk and high-cost sectors. With Industry 4.0, AR is also gaining ground in production and maintenance/support within companies. Maneuvers and tasks to be performed are visualized through augmented reality screens, making them much more effective than manuals or checklists. These systems help employees carry out tasks for which they may not have received training or for which the necessary knowledge is no longer available for other reasons. Real data can be integrated through the recognition and overlay of real objects; thus, Industry 4.0 and IoT are specifically integrated and supported. Considering Industry 5.0, immersive technologies like virtual reality and augmented reality will serve to enhance interaction and collaboration between humans and machines. Examples include gesture recognition and the guidance of collaborative robots.

Artificial Vision and Collaborative Robotics

The limitations of collaborative robots require the development of so-called cognitive robots, which use advanced sensors and artificial intelligence (AI) to make their own decisions, interact with workers, and learn from experiences to improve their performance. This opens up a wide range of new application fields, beyond their use in industrial environments. Unlike conventional cobots, AI-based cognitive robots use machine learning and adaptive algorithms to autonomously optimize their tasks and enable more complex interactions. This requires not only AI but also powerful CPUs and a good computer vision system.

Effective communication with humans is a key aspect of implementing these technologies. A robotic assistant in an industrial setting could use natural language processing to understand spoken commands and gestures, allowing for straightforward interaction with humans. In this way, cognitive robotics goes beyond mere programming and enters a territory where machines will not just be tools but collaborators capable of enhancing human skills and experiences.

Current computer vision systems have capabilities that, until recently, were considered utopian. Precise image processing and recognition, the identification of objects, people, and even emotions are now relatively trivial. These systems can even understand the composition of a scene and spatial relationships by locating and identifying multiple objects. Additionally, computer vision systems can process data in real time, enabling some systems to analyze and respond to live visual data. Combined with depth perception, this allows these tools to gauge distance and volume within their field of vision. In this way, robots can be equipped with the ability to perceive, understand, and interact with their environment meaningfully. By translating visual data into actions, computer vision allows robots to navigate autonomously, manipulate objects, and perform various tasks.

OUR PROYECTS IN SMART AND SUSTAINBLE INDUSTRY

Dec 2018 13

PigAdvisor – Smart Farming Solutions for Pig Farms

By | "Electronics and Artificial Intelligence" projects, "Simulation and Virtual reality" projects, Computer vision. Projects, Digital Transformation, National projects, Smart and Sustainable Industry, English | 0 Comments

Modern animal production involves the generation of a massive amount of data or Big Data that requires more complex and comprehensive management systems to optimize the use of the data. This high volume of data requires new large-scale storage techniques and different approaches to retrieve the information.

Duration: 2018 - 2020

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Dec 2018 13

Working Age – Smart Working environments for all Ages

By | "Simulation and Virtual reality" projects, Computer vision. Projects, Digital Health, European projects, Smart and Sustainable Industry, English | 0 Comments

WorkingAge will use innovative HCI methods (augmented reality, virtual reality, gesture / voice recognition and eye tracking) to measure the emotional / cognitive / health status of the user and create communication paths. At the same time, with the use of IoT, sensors will be able to detect environmental conditions. The goal is to promote healthy habits of users in their work environment and daily life activities to improve their working and living conditions.

Duration: 2019 - 2021

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Feb 2018 14

Inspector – Inspection and maintenance in the connected industry

By | "Electronics and Artificial Intelligence" projects, "Simulation and Virtual reality" projects, Digital Transformation, National projects, Smart and Sustainable Industry, English | 0 Comments

The objective of the project is to investigate various technologies, techniques, tools, methodologies and knowledge aimed at automating and optimizing the management of inspection and maintenance within the framework of the connected industry. This project will facilitate the adoption of Inspection and Maintenance solutions with a high degree of automation, efficiency and competitiveness.

Duration: 2017 - 2021

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