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ABB REVOLUTIONISES ROBOTICS TRAINING WITH ROBOMASTERS – A FLEXIBLE, INTERACTIVE LEARNING PLATFORM

ABB, a global leader in automation technologies, has recently launched RoboMasters, an innovative self-learning application designed to enhance robotics skills for users with varying levels of experience. This platform offers interactive lessons, simulations, and challenges that allow learners to progress at their own pace, facilitating a deep understanding of robotic systems.

Technical Specifications and Features

RoboMasters stands out for its comprehensive approach to robotics training. Among its most notable features are:

Interactive Lessons and Simulations: Users can access educational modules that combine theory and practice, allowing for an immersive learning experience. The simulations offer realistic scenarios where learners can apply concepts and techniques in a safe and controlled environment.
Community and Collaboration: The platform is not only a learning tool but also a community where users can connect with peers and trainers through chats, share tips, and participate in live events, fostering the exchange of knowledge and experiences.
Competitive Advantages

The adoption of RoboMasters offers multiple benefits:

Accessibility and Flexibility: Being a web-based application, users can access content anytime and anywhere, adapting learning to their schedules and needs.
Cost and Time Efficiency: By reducing the need for in-person sessions and travel, companies can lower expenses associated with traditional training, optimizing resources and time.
Gamified Learning: The inclusion of interactive elements and game-based learning modules increases user engagement and motivation, facilitating more effective knowledge assimilation.
Impact on Process Efficiency

The implementation of RoboMasters in training programs significantly contributes to improving operational efficiency. By providing a solid understanding of robotic systems, employees can operate and maintain equipment more effectively, reducing downtime and increasing productivity. Additionally, the ability to simulate and practice in a virtual environment minimizes risks and prepares users to face real challenges in the workplace.

ABB’s RoboMasters represents a significant advancement in robotics training, offering a flexible, accessible, and effective solution that meets the changing needs of the automation industry.

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THE FUTURE OF THE CATERING INDUSTRY: IA, ROBOTICS AND SUSTAINABILITY IN SELF CATERING

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The integration of artificial intelligence (AI) and robotics is transforming the food industry, and a standout example of this technological revolution is the robotized restaurant SELF, inaugurated at Josep Tarradellas Barcelona-El Prat Airport. This pioneering project, developed by KUKA in collaboration with Areas and other technological partners, marks a milestone in industrial automation applied to the restaurant sector.

SELF combines a KUKA robotic arm with advanced AI and machine vision technologies to autonomously manage and deliver orders. This system enables efficient and adaptive operation, optimizing resources and improving service quality. Among its advantages are the ability to handle multiple orders simultaneously, maintain consistent quality standards, and offer a personalized customer experience. Additionally, the restaurant incorporates sustainable practices, such as the use of recyclable materials and energy-efficient systems.

The collaboration between robots and humans at SELF redefines the dining experience, allowing staff to focus on tasks that require a human touch, such as customer service. This advancement not only improves operational efficiency but also sets a new standard for the food industry, demonstrating how automation can elevate levels of precision, personalization, and sustainability.

The technology of the robotized restaurant SELF, located at Josep Tarradellas Barcelona-El Prat Airport, is primarily integrated into the areas of order management, food preparation, and delivery. This system combines advanced artificial intelligence, machine vision, and a KUKA robotic arm designed to operate autonomously and efficiently.

Role of KUKA

KUKA plays a crucial role in this project by providing its advanced robotics technology. The KUKA robotic arm, equipped with a claw and five tactile fingers, is the core of the system. This robot not only manages and organizes orders but also uses machine vision to ensure precision and quality in each preparation.

Robotic Models Used

The specific model used in SELF is a KUKA robotic arm designed for handling and delivery tasks. This robot can manage up to six orders simultaneously, optimizing wait times and reducing errors. Additionally, its continuous learning capability allows it to adapt to environmental needs and improve its performance over time.

This project is an example of the positive impact of industrial automation on traditional sectors, paving the way for a future where technology and innovation will transform how we interact with everyday services. The vision of KUKA and Areas in this project underscores the potential of robotics and AI to revolutionize the food industry and establish new paradigms in resource management and customer experience.

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KUKA DRIVES FUTURE OF AUTOMATION IN CHINA WITH NEW TRAINING CENTRE IN SHENYANG

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Industrial automation continues to evolve rapidly, and KUKA, one of the global leaders in robotics and intelligent solutions, reaffirms its commitment to specialized training. The company has recently inaugurated the KUKA College in Shenyang, China, a state-of-the-art facility designed to train professionals in the use and application of industrial robots across various sectors.

A Center of Excellence for Industry 4.0

The KUKA College in Shenyang becomes a fundamental pillar for the training of engineers, technicians, and operators who seek to specialize in automation and robotics. With laboratories equipped with the latest technology, this center will offer practical and theoretical training on programming, maintenance, and optimization of industrial robots.

China, as the world’s largest robotics market, increasingly demands qualified talent in automation. KUKA responds to this need by providing a learning environment that combines the expertise of its specialists with innovative methodologies to enhance the competitiveness of the Chinese manufacturing industry.

Key Benefits for Industry and Professionals

Advanced Training: Courses adapted to different levels, from beginners to robotics experts.
Practical Focus: Training in real environments with KUKA robots, simulators, and automation systems.
Industry Connection: Strategic alliances with companies and universities to strengthen knowledge transfer.
Innovation Boost: Promotion of the development of new automation solutions for sectors such as automotive, electronics, and logistics.
A Step Forward in Digital Transformation

With this new facility, KUKA strengthens its presence in China and its commitment to talent development in automation. This training center will not only benefit local companies but also contribute to the adoption of Industry 4.0 in the country, preparing the next generations of robotics experts.

The inauguration of the KUKA College in Shenyang marks a milestone in technical education and the advancement of automation in China, consolidating KUKA’s leadership in the sector. With a focus on training and innovation, the company continues to build the future of smart manufacturing globally.

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OPCIONES INTELIGENTES PARA FINANCIAR UN ROBOT COLABORATIVO

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Industrial automation has evolved significantly in recent years, with collaborative robots (cobots) playing a key role in improving efficiency and reducing costs. However, the initial investment to acquire a robot can be a challenge for many companies. Fortunately, there are various financing options that allow these technologies to be integrated without compromising the company’s liquidity.

Leasing: Flexibility and Tax Benefits Leasing is a popular option that allows financing up to 100% of the cobot’s cost without a high initial payment. It works through periodic payments, and at the end of the contract, the company can choose to buy the equipment, renew it, or return it. Additionally, this method offers tax advantages, as payments can be deducted as operating expenses.

Installment Financing: Investment without Large Outlays Another alternative is installment financing, which allows the robot to be acquired through monthly payments. This option is ideal for companies that want to own the equipment at the end of the contract without making a significant initial payment. Moreover, many financial institutions offer agile approval processes and quick delivery.

Renting: Use without Ownership Renting is an attractive option for companies looking to avoid equipment depreciation and associated maintenance costs. In this model, a monthly fee is paid for the use of the robot, which includes services such as maintenance and updates. This alternative does not impact the balance sheet as an asset, improving the company’s financial capacity.

Pay-per-Use: Automation without Financial Risks For companies seeking maximum flexibility, pay-per-use allows access to collaborative robots without an initial investment. In this model, payment is made only for the time or number of operations performed with the robot, reducing risks and allowing automation to be adjusted according to production demand.

Choosing the best financing option depends on each company’s needs and financial capabilities. While leasing and installment financing are ideal for those looking to acquire the equipment, renting and pay-per-use offer greater flexibility without assuming ownership. With these alternatives, automation with collaborative robots is accessible for all types of businesses, from SMEs to large industries.

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FANUC TECH TRANSFER: THE EDUCATIONAL REVOLUTION IN INDUSTRIAL ROBOTICS

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Industrial automation is advancing by leaps and bounds, and training in robotics has become a fundamental pillar for the evolution of the sector. FANUC, a global leader in automation solutions, has taken a key step with the launch of FANUC Tech Transfer, an innovative educational platform that offers free access to over 100 video tutorials designed by expert engineers.
Open Access to Robotics Knowledge.
FANUC Tech Transfer is designed for students, integrators, customers, and professionals looking to improve their skills in configuring and programming industrial robots. The platform covers everything from basic concepts to advanced applications, allowing users to learn at their own pace and according to their specific needs.

With an intuitive interface, the platform facilitates the search for specific content through a filtering function by robot type, application, or general function. Thus, those seeking information on collaborative robots (CRX), SCARA robots, or high-performance industrial robots will find content tailored to their requirements.
An Opportunity for Specialization
Access to these resources is completely free. Interested parties only need to register by providing their name, company or educational institution, and email address. FANUC also complements this offer with FANUC Academy, a certification program that offers courses taught by specialized instructors. This combination of resources allows users not only to learn theory but also to apply their knowledge in real industrial environments.

Technology Transfer for Industry 4.0

Technology transfer is a key process in the industry, as it facilitates the integration of scientific and technological advances into production processes. FANUC has been a pioneer in the implementation of next-generation CNC systems, optimizing production with highly efficient transfer lines. Additionally, the company has incorporated artificial intelligence and cloud robotics, allowing robots to learn and adapt in real-time to environmental demands.

Innovation Within Everyone’s Reach

With the creation of FANUC Tech Transfer, the company reaffirms its commitment to democratizing knowledge in industrial robotics. By offering high-quality educational resources for free, it not only strengthens relationships with its customers and partners but also boosts the sector’s competitiveness.

Continuous training is key in a world where technology advances relentlessly. Thanks to FANUC Tech Transfer, more people have the opportunity to acquire skills that will enable them to perform at the forefront of industrial automation. With this initiative, FANUC not only leads the sector but also paves the way for the future of robotics.

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FACILITATING ROBOT PROGRAMMING IN MEDIUM SIZED COMPANIES WITH SRCI

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In an industrial environment where automation is a growing necessity, robot programming has become a challenge for many companies. The shortage of skilled professionals in this area has led to the search for innovative solutions. One such solution is the Standard Robot Control Interface (SRCI), which allows easy programming directly on the programmable logic controller (PLC), eliminating the need for specialized knowledge in robot systems.

A Breakthrough in Industrial Automation Robert Bürkle GmbH, specializing in pressing and coating technologies for the wood industry, has adopted SRCI to facilitate the programming of its Yaskawa robots. The handling of heavy parts in its production process has made the use of industrial robots indispensable, and with the SRCI interface, programming can be done directly on the PLC without relying on expert robot programmers.

SRCI provides a series of predefined function modules, known as libraries, that simplify the programming of robotic tasks. This initiative, driven by Siemens in collaboration with Profibus & Profinet International (PI), has allowed companies like Robert Bürkle to optimize their processes without significant investments in specialized training.

Key Benefits for Medium-Sized Companies One of the major benefits of SRCI is its accessibility for medium and small companies, which can integrate robots into their processes without the complexity of learning specialized programming languages. In the case of Robert Bürkle, the use of SRCI has facilitated the commissioning of new robotic systems, allowing its PLC programmers to work in a familiar environment and optimize operations without relying on external specialists.

The integration of digital twins has been another key factor in the implementation of SRCI. Thanks to this technology, the company can simulate processes and correct potential errors before launching the systems, reducing costs and adjustment times.

A Promising Future for Robot Programming As automation continues to expand in the industry, the demand for tools like SRCI will increase. Although there are other solutions like MotoLogix, mainly used by large manufacturers, SRCI offers an accessible and efficient alternative for companies looking to incorporate robots without making significant investments in specialized training.

The case of Robert Bürkle demonstrates that the combination of innovation and collaboration with technology providers can be key to staying competitive in a constantly evolving industrial environment. With the advancement of automation, tools like SRCI will continue to play a fundamental role in optimizing robotic programming.

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ROBOT MARKET OUTLOOK FOR 2034: INNOVATIONS AND EXPONENTIAL GROWTH

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The global robot market is projected to surpass USD 211.1 billion by 2034, driven by significant advances in artificial intelligence (AI), machine learning, and the expansion of robotic applications in key sectors such as healthcare, manufacturing, and logistics. Increasing demand and technological innovations are promoting unprecedented growth in this industry.

Key Growth Factors
Industrial Automation: The expansion of industrial automation continues to be a primary driver of growth in robotics. Companies in the automotive and electronics sectors are investing in robots to optimize production lines and improve product quality.
Healthcare: Robotics is revolutionizing healthcare, with robots performing predictive maintenance, making real-time decisions, and enhancing human interaction.
Advances in AI and Machine Learning: Artificial intelligence and machine learning enable robots to perform complex tasks with less human intervention, facilitating smarter and more efficient adoption of robotic technology.
Logistics and E-commerce: Growth in these sectors is increasing the demand for robotic solutions, such as cobots and autonomous mobile robots, which are being widely implemented.
Integration of 5G and IoT: 5G technology and the Internet of Things (IoT) are improving robot performance through real-time data transmission, remote monitoring, and seamless collaboration between robots and humans.
Regional Innovations
North America: The United States leads in AI-driven robotics, autonomous vehicles, and medical robots.
Europe: Germany, France, and the United Kingdom are rapidly adopting robotics in industrial automation and healthcare, with strong investment from the European Union in robotics R&D.
Asia-Pacific: China, Japan, and South Korea dominate the global market, driving sustainable investments in robot manufacturing.
Latin America, Middle East, and Africa: These regions are gradually adopting robotics in agriculture, mining, and security, with government support and key foreign investments for the development of robotic infrastructure.
Challenges and Sustainable Future Despite its promising growth, robotics faces challenges such as high initial investment costs, cybersecurity risks, and ethical concerns about job displacement. However, continuous technological advancements, regulatory support, and increasing demand for automation are expected to drive sustainable market expansion.
Companies and governments must adapt to this technological evolution, adopting robotics as a key enabler for progress and efficiency, aligning with global efforts to reduce carbon emissions and promote ecological sustainability.

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KUKA KR120 R3900 ULTRA K-F-HP: LA EFICIENCIA AL SERVICIO DE LA INDUSTRIA

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In the world of industrial automation, precision and efficiency are key. The KUKA KRC4 KR120 R3900 Ultra K-F-HP, distributed by Eurobots, is a six-axis industrial robot that stands out for its speed and precision, ideal for a variety of industrial applications.

Technical Features

The KR120 R3900 Ultra K-F-HP has a maximum reach of 3901 mm and a nominal load capacity of 120 kg. Its repeatability (ISO 9283) is ± 0.06 mm, ensuring exceptional precision. Additionally, the robot has IP65/IP67 protection, making it suitable for working in demanding industrial environments.

Applications and Benefits

This robot is especially suitable for companies that require handling, arc welding, and machining operations that need short cycle times. Its speed with nominal load is impressive, with a speed of 105°/s on axis A1 and 284°/s on axis A6. This makes it an efficient solution for increasing productivity and reducing cycle times.

Quality-Price

The KR120 R3900 Ultra K-F-HP offers excellent value for money. Its robustness and reliability, combined with its high precision, make it a valuable investment for any company looking to automate its processes and improve operational efficiency.

Advantages of the KUKA KR120

Higher Precision: With a repeatability of ± 0.06 mm, the KR120 surpasses many competitors in terms of precision.

Higher Speed: The speed of the KR120 is superior, allowing for reduced cycle times in welding and machining applications.

Enhanced Protection: The IP65/IP67 protection ensures that the robot can operate in more demanding industrial environments without risk of damage from dust or water.

Versatility: Its ability to handle a wide range of applications, from arc welding to machining, makes it a versatile option for various industries.

The cost-benefit ratio of the KUKA KR120 compared to other industrial robots can be evaluated considering several key factors: Factors to Consider

Initial Cost: The price of the KR120 can vary, but it generally ranges from $30,000 to $100,000 depending on specifications and additional features.

Maintenance Costs: KUKA robots usually have lower maintenance costs due to their reliability and ease of service.

Operational Efficiency: The high speed and precision of the KR120 can significantly reduce cycle times and increase productivity, leading to long-term savings.

Durability: The robustness and IP65/IP67 protection of the KR120 ensure a longer lifespan in demanding industrial environments, reducing the need for frequent replacements.

The KUKA KR120 R3900 Ultra K-F-HP offers a unique combination of speed, precision, and versatility that positions it as a superior option compared to other robots in its class. If you are looking to improve efficiency and productivity in your industrial operations, the KR120 is an excellent choice.

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DELTA ROBOTS: FLEXIBLE, HIGH-PERFORMANCE SOLUTIONS FOR INDUSTRY

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Industrial robotics has evolved considerably in recent decades, adapting to the demands of an increasingly demanding market. In this context, industrial robots offer solutions that not only meet the specific needs of products but also have the capability to work in a wide variety of operating conditions. Factors such as load capacity, volume, speed, repeatability, and quality control are essential to ensure optimal performance. Among the most outstanding options in industrial robotics are Delta robots, which stand out for their versatility, precision, and speed.

Delta Robots: Characteristics and Advantages

Delta robots are a category of industrial robots characterized by their parallel design, allowing them to perform quick and precise movements in three-dimensional space. They are composed of robotic arms connected by a series of rods and joints that, together, offer a high level of performance in repetitive tasks such as assembly, sorting, pick-and-place (picking up and placing objects), and handling of light parts.

One of the most notable characteristics of Delta robots is their ability to operate with great speed and precision. This is due to their lightweight structure and parallel kinematics design, which allows the robot’s three arms to work in sync, minimizing movement errors and ensuring high repeatability in tasks.

Adaptability to Industrial Needs

Delta robots are known for their ability to adjust to a wide variety of industrial tasks, and their versatility is reflected in the various applications they can tackle. Depending on the load capacity and volume of the parts to be handled, as well as the requirements for speed and precision, these robots can be configured to perform functions ranging from picking and sorting parts to handling delicate products.

Load Capacity and Volume

Although Delta robots are ideal for handling light and medium products, their load capacity is flexible and can be adjusted according to the type of application. The most advanced Delta robot systems can support loads of up to several kilograms, making them suitable for various sectors, including electronics, food, pharmaceuticals, and automotive.

Speed and Repeatability

One of the aspects that distinguishes Delta robots is their ability to operate at high speeds without sacrificing precision. This advantage is particularly crucial in production lines where speed and repeatability are key factors. The parallel design allows the robot to perform quick movements from one point to another with minimal margin of error, increasing operational efficiency and reducing cycle times.

Quality Control

Quality control is another essential factor in industrial automation, and Delta robots are designed to ensure high-quality standards in their tasks. Thanks to their high precision and repeatability, these robots can perform quality inspections during product handling, ensuring that each piece meets specified criteria.

Industrial Applications

Delta robots are particularly popular in processes that require speed, precision, and flexibility. Here are some of the most common industrial applications where these robots excel:

Food and Beverage Industry: Delta robots are ideal for tasks such as packaging, sorting, and assembling food products, as their speed and precision allow careful handling of products without risking damage.

Consumer Electronics: In the manufacture of electronic components, the ability of Delta robots to perform precise movements at high speed is essential for tasks such as placing printed circuits and integrating components into final products.

Pharmaceuticals: In the production of pharmaceutical products, where precision and hygiene are fundamental, Delta robots can delicately handle packaging, vials, and other sensitive products, helping improve efficiency and quality in the manufacturing process.

Automotive: Although Delta robots are more commonly associated with handling light parts, they are also used in the automotive industry for specific tasks such as placing component parts or packaging finished pieces.

Future Prospects and Trends

As technology continues to advance, Delta robots continue to evolve, with innovations that enhance their ability to adapt to more complex and demanding industrial environments. Integration with artificial intelligence (AI) and computer vision systems allows Delta robots to become even smarter, capable of performing real-time inspection and adjustment tasks.

Furthermore, the growing demand for customization and flexibility in production makes Delta robots an attractive option for smart factories, where automation adapts to the specific needs of each product.

Conclusion

Industrial robotics has significantly advanced, and Delta robots represent an outstanding example of how technological innovation can meet the needs of different industrial sectors. Thanks to their modular and adaptable design, along with their ability to work at high speeds and precision, Delta robots are proving to be an essential tool for the factories of the future. Their versatility and high performance make them a key option for companies seeking to optimize their production processes while maintaining quality and efficiency standards.

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ROBOTIC INNOVATION IN MEDICINE: KUKA UNVEILS COBOTS AT AAOS 2025

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At the annual meeting of the American Academy of Orthopaedic Surgeons (AAOS) 2025, KUKA, a global leader in robotic solutions, will present its innovative cobots (collaborative robots) specifically designed for medical applications. This exhibition promises to revolutionize the field of orthopedics by offering advanced technological tools that improve precision, efficiency, and safety in surgical procedures.
Technological Advances for More Precise Surgery KUKA’s cobots stand out for their ability to work safely and effectively alongside medical professionals. Equipped with state-of-the-art sensors and artificial intelligence software, these robots can assist in complex and delicate tasks, reducing the margin of error and optimizing operation times.
One of the key strengths of cobots is their flexibility. Thanks to their modular design and intuitive programming, they can adapt to a wide variety of surgical procedures. This allows surgeons to perform more precise and personalized interventions, thereby improving clinical outcomes and patient recovery.
Innovative KUKA Equipment At AAOS 2025, KUKA will present several innovative pieces of equipment:
LBR iisy Cobot: This cobot is designed to reduce work-related injuries for ultrasound and sonography technicians. Equipped with a Haply Inverse3 haptic feedback device and an OptoForce FT sensor, the LBR iisy can apply the appropriate amount of force during examinations, preventing unnecessary pressure and strain on technicians’ arms and shoulders.
LBR MED 14 R820 Cobot: This cobot will be used in a robotic development kit to reduce the development time of unique medical device solutions. Equipped with optical cameras and trackers from Northern Digital, Inc. (NDI), the LBR MED can assist in inserting brain biopsy needles, dynamically adjusting for safe and precise operation.
Haptic Feedback and OptoForce FT Sensor: These devices allow the cobot to apply the correct amount of force during procedures, providing tactile feedback that helps technicians avoid unnecessary pressure and strain.
Benefits for Patients and Professionals Implementing cobots in the medical field provides technical advantages and significant benefits for patients and healthcare professionals. On one hand, patients benefit from less invasive surgeries, shorter recovery times, and lower risks of complications. On the other hand, healthcare professionals have a tool that reduces their workload, alleviating the physical and mental strain associated with prolonged and repetitive procedures.
Furthermore, cobots’ ability to perform repetitive and precise tasks with high reliability frees surgeons to focus on critical aspects of the intervention, elevating the standard of medical care.

Collaboration and the Future of Medical Robotics KUKA focuses on developing cutting-edge technology and collaborating with medical and academic institutions to refine its robotic solutions. At AAOS 2025, the company aims to showcase its advancements and create strategic alliances to enhance the future of medical robotics.

KUKA’s commitment to innovation and quality has been a key factor in its market leadership. To improve patients’ lives and the efficiency of medical procedures, the company continues to invest in research and development, consolidating its position as a pioneer in collaborative robotics.

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