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DOBOT Unveils Intelligent Automation Solutions at Automate 2026 to Enhance American Manufacturing

DOBOT Unveils Intelligent Automation Solutions at Automate 2026 to Enhance American Manufacturing

DOBOT showcased its latest intelligent automation solutions at Automate 2026, emphasizing the theme 'DO MORE WITH DOBOT.' The company highlighted how its collaborative robots and AI-powered technologies can enhance efficiency and flexibility in American manufacturing. Key demonstrations included solutions for various industries such as automotive and food & beverage, showcasing the integration of robotics in real-world applications. The significance of DOBOT's presentation lies in its commitment to strengthening American manufacturing through advanced automation. By demonstrating a comprehensive portfolio of application-driven solutions, DOBOT illustrated the potential of intelligent robotics to address industrial challenges and accelerate the transition to smart manufacturing. The showcased technologies aim to improve production processes across sectors, enhancing overall operational efficiency. Looking ahead, DOBOT's focus on integrated automation ecosystems and collaborative robotics indicates a trend towards more accessible and scalable solutions for manufacturers. The company's innovations, including humanoid robots and advanced programming capabilities, suggest a future where human-robot collaboration becomes increasingly seamless. No further timeline was disclosed at the time of publication.

DOBOT Automate 2026 collaborative robots industrial automation automation solutions humanoid robot
Why Electric Vehicle NVH Testing Demands a Different Approach than ICE Validation

Why Electric Vehicle NVH Testing Demands a Different Approach than ICE Validation

In a recent development within the automotive industry, transmission engineers have encountered unexpected challenges when testing new electric vehicle (EV) drivetrains on test benches originally designed for internal combustion engine (ICE) components. During these tests, while the data appears to be accurate, engineers have noted an unusual high-pitched whine at 3,200 rpm, indicating a harmonic issue not accounted for in initial simulations. This phenomenon raises concerns about the compatibility of existing testing equipment with the unique characteristics of EV drivetrains. The findings highlight the need for updated testing protocols and equipment that can adequately address the distinct sound signatures and performance metrics of electric vehicles. As the industry shifts towards electrification, understanding and resolving these discrepancies will be crucial for ensuring the reliability and efficiency of EV technology.

Engineering Technology automation news automotive automation automotive engineering automotive R&D
BMW i Ventures Closes $300M Fund III to Back AI Across the Automotive Ecosystem

BMW i Ventures Closes $300M Fund III to Back AI Across the Automotive Ecosystem

BMW i Ventures has launched a new $300 million fund dedicated to investing in startups focused on artificial intelligence and advanced manufacturing within the automotive sector. This initiative, announced recently, represents the largest investment to date by the independent corporate venture capital arm of BMW AG. The fund, known as Fund III, aims to enhance the development of what BMW refers to as physical AI and agentic AI, reflecting the company's commitment to innovation in the automotive industry. By supporting these emerging technologies, BMW seeks to strengthen its competitive edge and drive advancements in vehicle manufacturing and functionality.

AI AI Funding & Investment Robotics automation automotive industry BMW i Ventures
Walden Robotics Launches AI-Driven Factory Robots for Real-World Automation

Walden Robotics Launches AI-Driven Factory Robots for Real-World Automation

Walden Robotics, a US-based startup, has unveiled a general-purpose robotics platform that enables Physical AI robots to learn and adapt while performing real work. Unlike traditional robots that follow pre-programmed workflows, Walden's robots continuously improve through real-world operations, making them suitable for complex tasks alongside human workers from the outset. The significance of Walden Robotics lies in its full-stack approach, which integrates hardware, AI, and deployment software to create robots that evolve in capability over time. With $300 million in funding and a valuation of $1.1 billion, the company is addressing the growing demand for flexible automation in sectors like automotive, aerospace, and logistics, driven by labor shortages and increasing product complexity. Looking ahead, Walden Robotics has already begun deploying its robots in production environments, including a Toyota manufacturing plant in North America. The company aims to enhance its robots' skills through real-world experience, utilizing advanced AI techniques such as Large Behavior Models and Diffusion Policy. No further timeline was disclosed at the time of publication.

AI and Robotics Innovation
Tsinghua alumni launch AI startup, securing hundreds of millions in angel funding for the automotive industry.

Tsinghua alumni launch AI startup, securing hundreds of millions in angel funding for the automotive industry.

Embodied intelligence company Guangxiang Technology has successfully secured hundreds of millions in angel funding, with significant participation from leading investors including Zhuhai Technology Industry Group, Xingsheng Capital, and several others. Founded in April 2025 through a collaboration between Tsinghua University's Vehicle and Transportation Institute and its AI Institute, Guangxiang aims to advance the development of its physical native base model and commercialize embodied intelligent robots for industrial applications. The company's founder and CEO, Zhang Tao, previously led the spatial perception engine at Amap, while co-founder Professor Li Shengbo is a renowned expert in reinforcement learning and autonomous driving. The team, which includes members from major tech firms like Alibaba and Huawei, is focused on a unique technological approach that diverges from mainstream visual-language-action models. Guangxiang's flagship product, the Phi-Bot X1, was launched in June 2026 and is designed for industrial environments. The robot has demonstrated impressive capabilities, completing a full welding operation on an automotive production line without errors during a 21.5-hour continuous run at the 2026 ATC exhibition. The company plans to expand its applications in the automotive sector, targeting the remaining 30% of automation gaps that traditional methods cannot address. Zhang envisions a robust market for automotive production line robots, estimating a potential market size of around 100 billion yuan in China. Guangxiang Technology is committed to refining its products and scaling operations, with a focus on real-world applications and continuous feedback to enhance its offerings.

Productive Robotics Equips Manufacturers With Zero Programming End-To-End Automation At IMTS

Productive Robotics Equips Manufacturers With Zero Programming End-To-End Automation At IMTS

Productive Robotics, based in Santa Barbara, California, is set to showcase its innovative end-to-end automation solutions at the International Manufacturing Technology Show (IMTS) 2026, taking place on July 1. The company will exhibit at two booths, highlighting its 7-axis OB7 collaborative robots, which require no programming and offer a plug-and-play setup. This technology aims to address acute labor shortages, rising costs, and global competition faced by manufacturers. In Booth #339186, the focus will be on automating metal removal processes, while Booth #237138 will emphasize abrasive machining, sawing, and gear production. Zac Bogart, president of Productive Robotics, emphasized the importance of CNC machining for U.S. manufacturers, particularly in defense, aerospace, and automotive sectors, as well as for reshoring efforts to stabilize supply chains. The demonstrations will include automated vision inspection systems, MIG welding, and laser welding applications, showcasing the versatility of the company's robots. With their unique 7-axis design, these collaborative robots offer enhanced dexterity, allowing them to perform a wide range of tasks without the need for workspace redesign. The user-friendly interface enables operators with no robotics experience to quickly teach the robots tasks, significantly boosting productivity and safety in various manufacturing environments. For more information, visit Productive Robotics' website.

Kunda Automation Integrates Humanoid Robots into Production Lines

Kunda Automation Integrates Humanoid Robots into Production Lines

Kunda Automation has recently obtained substantial funding aimed at advancing its mobile robots and smart assembly systems, reflecting a growing emphasis on the operational stability and adaptability of robots in manufacturing. As industries increasingly integrate robotic technology, particularly in the automotive and aerospace sectors, the focus has shifted from the human-like appearance of robots to their ability to execute complex tasks effectively in real-world environments. This funding will enable Kunda Automation to enhance its offerings, ensuring that their robots can meet the demands of modern manufacturing processes.

Mobile Robots Smart Manufacturing Automation Solutions Industrial Robotics
Brownfield Is the Real Test of Automation: How ForwardX Scaled 484 AMRs in a Live Auto OEM Factory Without Production Downtime

Brownfield Is the Real Test of Automation: How ForwardX Scaled 484 AMRs in a Live Auto OEM Factory Without Production Downtime

Over a year since its implementation, ForwardX's autonomous mobile robot (AMR) system is successfully expanding within Chery Automobile's manufacturing facility in Dalian, China, while maintaining uninterrupted production. This project has emerged as one of the largest brownfield AMR deployments in the automotive sector, showcasing the effectiveness of integrating advanced robotics into existing manufacturing processes. The deployment aims to enhance operational efficiency and streamline logistics within the facility, reflecting the growing trend of automation in the automotive industry.

indie Launches Edge AI SoC to Power Smarter Perception Systems for Automotive and Humanoids

indie Launches Edge AI SoC to Power Smarter Perception Systems for Automotive and Humanoids

indie, an automotive solutions innovator based in Aliso Viejo, CA, has announced the launch of its next-generation edge AI system-on-chip (SoC), the iND881, designed to enhance smart camera technology for automotive and robotic applications. Unveiled on June 10, 2026, the iND881 integrates an AI compute engine with indie’s advanced low-latency multi-camera image signal processor (ISP), providing an efficient solution for developers. The iND881 is engineered for low power consumption and real-time responsiveness, featuring a Neural Processing Unit (NPU), a versatile Digital Signal Processor (DSP), and a quad-core ARM Cortex-A53 CPU. This architecture is tailored for demanding edge perception tasks, making it particularly beneficial for advanced driver assistance systems, including driver and occupant monitoring and smart mirrors with blind-spot detection. In addition to automotive applications, the iND881 supports robotics and physical AI automation, facilitating accurate sensing and navigation for autonomous mobile robots. The device's capabilities include multi-channel video compression, high-dynamic-range ISP, and compatibility with various sensor modalities such as infrared and LiDAR, ensuring robust performance in complex environments. The iND881 is ASIL-B compliant and automotive qualified, currently available for sampling. It will be showcased at the upcoming AutoSens and InCabin USA 2026 events. Fred Jarrar, indie's senior vice president, emphasized that the launch not only expands their product portfolio but also positions indie as a comprehensive solutions provider in the edge AI market.

N Ways Robotic Arms Are Transforming the Automotive Assembly Line

N Ways Robotic Arms Are Transforming the Automotive Assembly Line

The automotive manufacturing industry is experiencing a significant transformation driven by the integration of advanced robotic arms, particularly collaborative robots, which enhance production efficiency, precision, and flexibility. JAKA, a leader in intelligent manufacturing, is at the forefront of this shift, implementing its robotic technology to address challenges such as low efficiency, inconsistent quality, and high labor costs in automotive assembly. As consumer demand evolves towards smaller batches and diverse product varieties, JAKA's collaborative robots, exemplified by the JAKA S12, offer high-precision adaptive assembly capabilities. With built-in force sensors and a lightweight design, these robots can be quickly deployed on assembly lines, minimizing downtime and adapting to various workpiece shapes and sizes. In the critical welding phase of automotive assembly, JAKA's robotic arms improve quality and efficiency by optimizing the welding process. Their user-friendly configuration interface and safety features ensure reliable operation, while compatibility with various welding machine brands enhances their versatility. Moreover, JAKA's collaborative robots lower the barriers to automation with zero-cost deployment and straightforward operation, allowing companies to implement these systems without specialized technical staff. This innovation not only reduces training costs but also enables manufacturers to quickly adapt to automation in their assembly lines. As the automotive sector increasingly embraces intelligent and flexible manufacturing, JAKA is committed to continuous innovation, providing high-quality robotic solutions that empower enterprises to enhance production efficiency and sustainability in the evolving market landscape.

Robot Orders Hold Steady in Q1 2026 as Demand Broadens Across Non-Automotive Industries

Robot Orders Hold Steady in Q1 2026 as Demand Broadens Across Non-Automotive Industries

Recent data from A3 indicates significant growth in sectors such as life sciences, electronics, food, and collaborative robots, even as the automotive original equipment manufacturer (OEM) market experiences a cyclical downturn. This trend highlights the resilience and adaptability of these industries amid challenges faced by the automotive sector. The report, released in October 2023, underscores the ongoing demand for innovation and automation in various fields, suggesting that companies are increasingly investing in technology to enhance productivity and efficiency. The findings reflect a broader shift in market dynamics, where certain sectors continue to thrive despite fluctuations in others, pointing to a diversified economic landscape.

Why Global Buyers Are Increasingly Choosing Robot Arm China for Automation

Why Global Buyers Are Increasingly Choosing Robot Arm China for Automation

The global industrial sector is experiencing a significant transformation as companies increasingly adopt flexible automation, particularly in China, which has emerged as the largest market for industrial robots. This shift is driven by a growing demand for sophisticated robotic arms that not only offer cost-effectiveness but also advanced adaptability and intelligence to seamlessly integrate into existing production lines. Historically associated with mass production, Chinese manufacturing is now recognized for its technical innovation and research and development in robotics. Local manufacturers are enhancing their technologies to meet stringent international standards, resulting in systems that excel in precision, payload capacity, and software integration. International buyers are attracted to these modern Chinese robotic solutions due to their rapid deployment capabilities and versatility, which are designed to simplify complex automation tasks for small and medium-sized enterprises. By focusing on user-friendly interfaces and modular designs, these robots lower the barriers to automation across various industries, including electronics, automotive, and food processing. Leading this collaborative revolution is JAKA, a global frontrunner in intelligent robotics. The company emphasizes a mission to enhance productivity through its innovative solutions, such as the JAKA Zu Series and S Series. These products boast impressive specifications, including high payload capacities and precise positioning accuracy, making them ideal for delicate tasks. JAKA's "plug-and-play" approach allows its collaborative robots to operate safely alongside human workers without traditional safety barriers, further enhancing their appeal. With a global service network and advanced training programs, JAKA positions itself as a comprehensive partner in automation, ensuring that its technology remains at the forefront of the industry.

The History and Development of Industrial Cobots in Modern Automation

The History and Development of Industrial Cobots in Modern Automation

Industrial automation has undergone significant transformation over the past few decades, with collaborative robots, or cobots, playing a pivotal role in this evolution. JAKA, a leading company in this field, has highlighted how these robots enhance manufacturing processes by allowing safe and efficient collaboration with human workers. Unlike traditional robots that operate in isolation, cobots are designed to work alongside humans, improving workplace efficiency, reducing exposure to hazardous tasks, and ensuring consistent product quality. The journey of industrial cobots began in the early 1990s when researchers sought to merge automation with human collaboration. Initially, safety concerns limited robots to isolated environments, but advancements in technology have since enabled them to operate safely in shared spaces. JAKA has utilized these innovations to develop the JAKA Pro5, a robot that ensures precise handling while minimizing workplace accidents. Today, cobots are increasingly utilized across various sectors, including electronics, automotive, and logistics. Their ability to take on repetitive or dangerous tasks allows human operators to concentrate on more complex decision-making roles. The JAKA Pro5, for instance, is highly adaptable and can be quickly reprogrammed for different production needs, enhancing operational flexibility and reducing costs associated with equipment changes. Looking ahead, JAKA envisions a future where collaborative robots will continue to advance, incorporating intelligent sensing and adaptive learning. This evolution aims to create smart factories where humans and machines work together seamlessly, ensuring that automation remains both productive and safe.

How Assembly Robots Achieve High-Precision Tolerance in Automotive Manufacturing

How Assembly Robots Achieve High-Precision Tolerance in Automotive Manufacturing

In the automotive manufacturing sector, achieving high-precision tolerance is crucial for maintaining quality across large production volumes. As vehicle designs evolve to become more compact and modular, traditional manual assembly processes are increasingly inadequate in ensuring the necessary accuracy during extended shifts. JAKA, a leader in robotic solutions, has identified that integrating automation at key assembly stages can enhance tolerance control and support flexible production planning. The company emphasizes the importance of robotic systems, particularly industrial robot arms, in managing repeatability and process stability. These robots execute predefined trajectories with consistent speed and positioning, significantly reducing variability associated with manual operations. For instance, when used for tasks like gluing, these robots can maintain uniform glue beads and consistent joint dimensions, even amidst changing production schedules. By replacing manual dispensing methods, which often lead to fluctuations in flow rate and application angles, automotive manufacturers can achieve more stable and programmable production processes. JAKA's robotic solutions facilitate precise flow control, minimize material waste, and enhance surface appearance, all while being user-friendly and requiring minimal retraining for operators. Ultimately, JAKA's approach underscores that high-precision tolerance is best achieved through the integration of assembly robots into workflows, thereby reducing human error and maintaining flexibility on the production floor. As automation continues to advance, JAKA aims to provide practical robotic solutions that meet the evolving needs of the automotive industry.

ROKAE Supports SERES with Flexible Automation Solutions

ROKAE Supports SERES with Flexible Automation Solutions

ROKAE Robotics has successfully implemented over 40 CR-series collaborative robots at SERES Power’s Changshou plant, marking a significant advancement in the intelligent manufacturing sector of the new energy vehicle industry. This deployment, which occurred recently, aims to enhance the plant's intelligent final assembly line, achieving full automation in critical production processes. The initiative reflects the growing trend towards automation in manufacturing, driven by the need for increased efficiency and productivity in the rapidly evolving automotive market.

The Rise of Cobots in Manufacturing: Trends Shaping the Global Automation Market

The Rise of Cobots in Manufacturing: Trends Shaping the Global Automation Market

The manufacturing industry is experiencing a transformative shift as automation technologies advance, with JAKA leading the way in the integration of collaborative robots, or cobots. These machines are designed to work alongside human operators, enhancing productivity while prioritizing safety. The adoption of cobots is expanding beyond niche applications to various sectors, including assembly, electronics, automotive, and precision engineering. JAKA's Zu series exemplifies how intelligent automation can optimize complex tasks like screwdriving, ensuring speed, accuracy, and reliability in production processes. A notable trend in modern manufacturing is the increasing use of 6-axis robot arm systems, which provide enhanced flexibility and adaptability. JAKA's robotic solutions can perform multiple functions such as assembly, material handling, and inspection, with the ability to adjust torque independently for different product requirements. This innovation has enabled clients to reduce manual labor and maintain consistent quality across production lines, particularly in high-mix, low-volume environments. The focus on efficiency and safety is driving the adoption of cobots, with JAKA integrating advanced control algorithms and sensors to create collaborative workspaces. The JAKA Zu series facilitates safe and reliable automated screwdriving, reducing repetitive strain injuries and improving production predictability. As the demand for intelligent automation grows, JAKA remains committed to providing flexible and precise solutions that meet the evolving needs of modern factories, positioning cobots as a vital component in the future of manufacturing.

Over 200 Estun Robots Deployed in a Single Line! Large-Scale Production of Fully Autonomous Automotive Parts Welding Line Launched

Over 200 Estun Robots Deployed in a Single Line! Large-Scale Production of Fully Autonomous Automotive Parts Welding Line Launched

Estun has marked a significant achievement in the automotive manufacturing sector by successfully installing and commissioning over 200 robots in a fully autonomous production line. This milestone, reached recently, demonstrates an impressive 90% automation level, highlighting Estun's advanced technology and expertise in high-end automotive manufacturing. The successful implementation not only showcases the company's capabilities but also sets a new benchmark for the industry, potentially influencing future manufacturing processes and standards.

Industrial Robots Automotive Manufacturing Automation Technology Robotic Welding
KR TITAN ultra: KUKA sets new standards in heavy-duty automation

KR TITAN ultra: KUKA sets new standards in heavy-duty automation

KUKA has introduced the KR TITAN ultra, a new robot designed for heavy-duty applications, enhancing its offerings in the automation sector. This advanced robot features an impressive reach and precise dynamics, making it suitable for various industries, including automotive manufacturing, battery handling, and large component logistics. Shortly after its launch, the KR TITAN ultra was delivered to PIA Automation for integration at an automotive client, showcasing its immediate applicability in real-world settings. This development reflects KUKA's commitment to meeting the growing demands of the industry for robust and efficient automation solutions.

ROKAE Robotics Powers Automation Across 100+ Polishing Scenarios, Driving Innovation in Grinding Robots

ROKAE Robotics Powers Automation Across 100+ Polishing Scenarios, Driving Innovation in Grinding Robots

ROKAE Robotics has unveiled a new range of high-performance grinding robots and innovative automation solutions, showcasing its expertise in core technologies. The launch, which occurred recently, highlights the company's significant market success across various sectors, including automotive, 3C electronics, metalworking, and general manufacturing. This strategic move aims to reinforce ROKAE's competitive advantage in the field of polishing automation, responding to the growing demand for efficient and advanced manufacturing processes. By integrating cutting-edge technology into their offerings, ROKAE Robotics is positioning itself as a leader in the automation industry, catering to the evolving needs of its diverse clientele.

China's First Domestic Heavy-Duty Robotic Automotive Panel Stamping Line by Estun!

China's First Domestic Heavy-Duty Robotic Automotive Panel Stamping Line by Estun!

In the automotive manufacturing industry, the stamping process is essential for creating body panels like doors, side panels, and engine hoods. However, traditional stamping lines often depend on manual loading and unloading, which leads to inefficiencies and exposes workers to challenging conditions, including excessive noise, high temperatures, and dust. To address these issues, manufacturers are increasingly adopting automated solutions that enhance efficiency and improve workplace safety. By integrating advanced robotics and automation technologies, companies aim to streamline the stamping process, reduce labor costs, and create a more conducive working environment. This shift is not only expected to boost productivity but also to mitigate the health risks associated with manual operations. As the automotive sector continues to evolve, the move towards automation in stamping lines reflects a broader trend of modernization aimed at meeting growing production demands while ensuring worker safety.

ESTUN AUTOMATION ROBOTICS SERVO SYSTEMS
Dobot to showcase collaborative robot use cases in automotive, food, and education at "Automate 2026."

Dobot to showcase collaborative robot use cases in automotive, food, and education at "Automate 2026."

Dobot Robotics has unveiled a promotional video showcasing its products in preparation for the upcoming Automate 2026, one of North America's largest industrial automation trade shows. The video was released on YouTube on June 16, 2026, as part of the company's efforts to highlight its innovations and engage with potential customers ahead of the event. This strategic move aims to enhance visibility and demonstrate the capabilities of Dobot's automation solutions in a competitive market.

When Factory Logistics Falls Out of Sync with Production: Three Operational Turning Points in Automotive and Chemical Industries

When Factory Logistics Falls Out of Sync with Production: Three Operational Turning Points in Automotive and Chemical Industries

As global manufacturing evolves, companies are increasingly focusing on capacity expansion and automation to enhance productivity. However, with the acceleration of production takt time, a pressing concern arises regarding the ability of factory logistics to support this heightened operational intensity. Industry experts are examining whether current logistics systems can adapt to the demands of faster production cycles, which are essential for maintaining competitiveness in a rapidly changing market. The ongoing developments in manufacturing processes highlight the need for innovative solutions to ensure that logistics can keep pace with the advancements in production technology.

Agility Robotics Lands Toyota as Commercial Partner, Aiming at Automotive Production

Agility Robotics Lands Toyota as Commercial Partner, Aiming at Automotive Production

Toyota Motor Manufacturing Canada has announced a significant step forward in its production capabilities by signing a commercial agreement to integrate Digit humanoid robots into its manufacturing facilities. This decision follows a successful pilot program that demonstrated the robots' effectiveness in enhancing operational efficiency. The deployment of these advanced robots is set to take place across various production sites, marking a notable advancement in the company's automation efforts. The initiative aims to streamline processes and improve productivity, reflecting Toyota's commitment to innovation in manufacturing. The integration of humanoid robots is expected to not only optimize workflow but also address labor challenges within the industry.

US Canada Business Digit Agility Robotics
Interview with CreateMe CEO Campbell Myers: From stitching to bonding – physical AI could transform the way clothes are made

Interview with CreateMe CEO Campbell Myers: From stitching to bonding – physical AI could transform the way clothes are made

Apparel manufacturing continues to be one of the most labor-intensive sectors globally, despite advancements in automation in other industries such as automotive and electronics. The difficulty in automating textile production arises from the unique properties of fabric, which can stretch, wrinkle, and shift unpredictably. This complexity has hindered the development of effective robotic solutions for handling soft materials, leaving the apparel industry largely reliant on human labor. As manufacturers seek to improve efficiency and reduce costs, the challenge of integrating automation into textile production remains a significant hurdle.

Engineering Features Manufacturing adhesive bonding apparel automation apparel industry
Dürr implementing a CO2-efficient paint shop with cross-plant system integration

Dürr implementing a CO2-efficient paint shop with cross-plant system integration

Dürr is undertaking a significant project to construct a fully integrated paint shop for Volkswagen Autoeuropa, which includes the deployment of an advanced software solution. This initiative, set to be completed by 2024, aims to enhance efficiency in vehicle production by utilizing cutting-edge application and drying technologies that focus on maximizing CO2 reduction. The project also features an innovative SCADA integration, which will unify three separate paint shops into a single cohesive system. By the end of the project, it is anticipated that the facility will support the production of 236,100 vehicles annually, reflecting a commitment to sustainability and operational excellence in the automotive industry.

Industrial robots News automotive manufacturing automotive production co2 reduction digital manufacturing
Teradar enters paid evaluation program with German automaker for terahertz vehicle sensing technology

Teradar enters paid evaluation program with German automaker for terahertz vehicle sensing technology

Teradar, a company specializing in terahertz (THz) vision technology, has initiated a paid technical evaluation program with a leading German automotive manufacturer. This collaboration aims to assess Teradar's innovative sensing technology for potential integration into advanced driver assistance systems (ADAS) and autonomous driving platforms. The evaluation will specifically target challenging scenarios where traditional sensing technologies, including cameras, radar, and lidar, may face limitations. By exploring the capabilities of THz technology, both Teradar and the automotive manufacturer seek to enhance the safety and efficiency of future automotive systems.

Components Design Engineering adas advanced driver assistance systems automation news
QCraft demonstrates urban NOA on Qualcomm’s latest Snapdragon Ride chip, targets 2026 global mass production

QCraft demonstrates urban NOA on Qualcomm’s latest Snapdragon Ride chip, targets 2026 global mass production

QCraft showcased its urban Navigate-on-Autopilot (NOA) system, powered by Qualcomm’s SA8650P Snapdragon Ride platform, during a live demonstration on June 5 at Qualcomm’s Automotive Technology and Cooperation Summit in Wuxi, China. This event marked a significant step for the autonomous driving company, which is aiming for global mass production of its technology within this year. Attendees had the opportunity to experience live test rides, highlighting the practical applications of QCraft's advancements in autonomous driving. The demonstration underscores the growing collaboration between technology and automotive sectors, as companies like QCraft seek to revolutionize urban transportation through innovative autonomous solutions.

Autonomous Vehicles Computing Technology assisted driving automation news automotive technology
F.02 Contributed to the Production of 30,000 Cars at BMW

F.02 Contributed to the Production of 30,000 Cars at BMW

The Figure 02 robot has been successfully deployed at BMW's Spartanburg plant, playing a crucial role in the production of over 30,000 X3 vehicles within an 11-month period. This achievement highlights the robot's effectiveness in enhancing manufacturing processes. Insights gained from this project are expected to guide the development of the next-generation Figure 03 robot, aimed at further improving operational efficiency and reliability in automotive production.

robotics automotive manufacturing technology deployment industrial automation humanoid robots
Xiaomi Humanoid Robots Transition to Complex Workpiece Handling on SU7 Production Line

Xiaomi Humanoid Robots Transition to Complex Workpiece Handling on SU7 Production Line

Xiaomi's humanoid robots have advanced from basic screw-tightening tasks to managing complex flexible workpieces on the SU7 production line. This transition marks a significant achievement, with the robots reaching a success rate of over 90% after just six months of training in the factory environment. This development is crucial as it highlights Xiaomi's commitment to enhancing automation in car manufacturing, showcasing the potential of humanoid robots in handling intricate tasks. The successful implementation of these robots could lead to increased efficiency and productivity within the automotive production sector. Looking ahead, it will be important to monitor how Xiaomi continues to integrate these humanoid robots into their production processes and whether they will expand their capabilities further. No further timeline was disclosed at the time of publication.

Technology
Hyundai Motor Workers Initiate Three-Day Strike Demanding Bonuses and Job Security

Hyundai Motor Workers Initiate Three-Day Strike Demanding Bonuses and Job Security

Hyundai Motor Co. workers commenced a three-day partial strike on Monday, driven by union demands for increased bonuses. This action follows significant agreements reached in the semiconductor sector, highlighting the growing pressure on automotive workers to secure better compensation amidst rising industry profits. The strike underscores the critical concerns surrounding job security in the face of advancing automation technologies, particularly AI and robotics. Workers are seeking assurances that their positions will not be jeopardized as Hyundai continues to integrate more automated processes into its manufacturing operations. Looking ahead, the outcome of this strike could influence negotiations across the automotive industry, particularly regarding labor agreements and automation policies. No further timeline was disclosed at the time of publication, but the situation remains fluid as both sides prepare for potential discussions.

KSC:005380
Mitsubishi Motors Partners with Highlanders for Humanoid Robot Production by 2027

Mitsubishi Motors Partners with Highlanders for Humanoid Robot Production by 2027

Mitsubishi Motors has announced a collaboration with Tokyo-based startup Highlanders to mass-produce humanoid robots for its automotive factories. Production is set to commence as early as 2027, with the partnership aiming to enhance automation within Mitsubishi's manufacturing processes. This initiative was unveiled during a demonstration event in Tokyo on July 9, showcasing the jointly developed humanoid robot. The significance of this collaboration lies in Mitsubishi's strategic move to integrate advanced robotics into its production lines, reflecting a broader trend in the automotive industry towards automation and efficiency. By leveraging Highlanders' expertise in humanoid robotics, Mitsubishi aims to address labor shortages and improve operational productivity, aligning with global shifts towards smart manufacturing technologies. Looking ahead, industry observers will be keen to monitor the development and deployment timeline of these humanoid robots, as well as their impact on Mitsubishi's manufacturing capabilities. No further timeline was disclosed at the time of publication, but the partnership signals a commitment to innovation in the automotive sector.

ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift

ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift

ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift Visit http://go.abb/robotics for further information -The new Flexley Stack F712 extends ABB Robotics’ AI-powered Visual SLAM technology to autonomous forklifts, enabling pallet transport and high-density storage. -Customers can now deploy mixed fleets of Visual SLAM-powered tugs, movers and forklifts on a common navigation, fleet management and software platform. -Powered by ABB Robotics' AMR Studio, the portfolio enables up to 20% faster commissioning while ensuring seamless interoperability and safe, reliable operation. 07/07/26, 07:10 AM | Industrial Robotics, Mobile Robots | ABB Inc. ABB Robotics is expanding its Autonomous Mobile Robotics (AMR) portfolio with the launch of the Flexley® Stack F712, creating a complete interoperable ecosystem across all major Visual SLAM AMR types. Combining autonomous forklifts, tugs and movers on one platform, ABB Robotics enables customers to automate a broader range of material-handling and intralogistics processes. Offering market-leading accuracy, the F712 is designed for demanding material handling, end-of-line storage and warehouse operations across industries including automotive manufacturing, helping increase efficiency, flexibility and scalability. More Headlines A3's Automate 2026 Breaks Records as Demand for Robotics, AI and Automation Grows NVIDIA and Hugging Face Bring New Models and Frameworks to LeRobot for the Open Robotics Community Palladyne AI Executes $4.2 Million U.S. Air Force Contract to Advance Swarming Capabilities for Integrated Cross-Domain Operations UMA Unveils Its Vision for the Next Generation of Humanoid Robots Robbyant Unveils LingBot-Depth 2.0 and LingBot-Vision to Redefine Robotic Spatial Perception Articles Unleash AI Innovation: The Power of NVIDIA RTX PRO 6000 Blackwell Workstation Edition Fueled by PNY-Supplied GPUs Automate 2026 Q&A with DESTACO Automate 2026 Q&A with Roboteon Advances in Robots to See & Interpret within Warehouse Environments Building Resilient Fulfillment Networks with Robotics and Real-Time Logistics Data "Across intralogistics operations, businesses are being asked to process greater volumes in less time, while working with increasingly limited resources," said Marc Segura, President, ABB Robotics. "They are under pressure to move goods faster and with greater flexibility, while labour availability is becoming a critical constraint. As part of our journey to more autonomous and versatile robotics (AVRTM), we have combined advanced vision, mobility and intelligence in the Flexley Stack F712 forklift AMR, completing our scalable, AI-powered AMR portfolio." F712 is versatile, capable of handling multiple load types and sizes - including open and closed pallets, containers or racks- up to 2,000 kg and reaching heights of 8.5 meters. The Flexley Stack AMR F712 joins the Flexley Tug and Flexley Mover in ABB Robotics' growing Visual SLAM AMR portfolio. Applications include intralogistics tasks such as warehouse storage and retrieval, as well as line supply, end-of-line handling, body- and press-shop and drive-in and light buffer in the automotive and industries sector. Unlike conventional AMR forklifts on the market, F712 uses Visual SLAM to map and navigate its environment, eliminating the need for pre-installed infrastructure like markers or reflectors. The AI-enabled Visual SLAM supports the autonomous decisions required to operate in complex, dynamic warehouse operations with a market-leading positional accuracy of ±10 mm. Together with AMR Studio®, this shortens commissioning times by up to 20 percent and creates a versatile and reliable system that can adapt instantly when a warehouse or production floor layout changes. Certified to the latest ISO and ANSI safety standards, Flexley Stack F712 can safely operate at class-leading speeds of up to 1.7 m/s while loaded. F712 is fully integrated with AMR Studio and is VDA5050 compatible, enabling seamless integration with ABB Robotics' Visual SLAM AMRs and existing systems within a unified project. This makes it easy to manage complex projects and integrate different types of mobile robots. The no-code, drag-and-drop software suite supports rapid setup, fleet coordination, traffic management and real-time visualization, allowing ABB Robotics' tugs, movers and forklifts to operate together in the same layout for scalable turnkey automation projects. ABB Robotics as one of the world's leading robotics companies, is the only company with a comprehensive and integrated AI-powered portfolio covering robots, cobots and Autonomous Mobile Robots (AMRs), designed and orchestrated by our value-creating software. We help companies of all sizes and sectors - from automotive to electronics and logistics - to outperform by becoming more resilient, flexible and efficient. ABB Robotics is at the forefront of developing and commercializing a new generation of Autonomous Versatile Robotics

GM lays off over 1,000 workers at Detroit plant, adds 50 robots: ‘We are in a fight for humanity.’ Progress or betrayal?

GM lays off over 1,000 workers at Detroit plant, adds 50 robots: ‘We are in a fight for humanity.’ Progress or betrayal?

General Motors has laid off over 1,000 workers at its Factory ZERO assembly plant in Detroit while introducing 50 AI-powered collaborative robots, known as "cobots," to enhance production efficiency. The layoffs, announced on July 4, 2026, have sparked criticism from the United Auto Workers (UAW), which claims the move underscores the human cost of increasing automation in the industry. UAW President Shawn Fain emphasized the need for AI to improve job quality rather than displace workers, stating, "We are in a fight for humanity." GM insists that the layoffs are temporary and unrelated to the introduction of the robots, which are intended to work alongside human employees to improve safety and ergonomics. A GM spokesperson noted that the company is committed to integrating advanced technology into its operations to enhance manufacturing processes. The automaker has been investing heavily in AI and factory automation, with its Autonomous Robotics Center in Warren, Michigan, developing systems that can learn from production data to identify defects and anticipate maintenance needs. The situation at GM contrasts with rival Ford, which recently rehired 350 employees to address shortcomings in its AI-driven quality control efforts. As the automotive industry increasingly turns to automation, the long-term implications for workers and manufacturing quality remain uncertain.

BMW introduces humanoid "Figure 03" at factory for physical AI coordination and sequencing tasks.

BMW introduces humanoid "Figure 03" at factory for physical AI coordination and sequencing tasks.

Figure AI has introduced its humanoid robot, Figure 03, at BMW Group's Spartanburg plant, showcasing its capability to perform parts sorting tasks. This demonstration highlights the integration of advanced robotics in manufacturing processes, aimed at enhancing efficiency and productivity in the automotive industry. The event marks a significant step in the collaboration between technology and manufacturing, reflecting the ongoing trend of automation in production environments.

BMW Group deploys Figure 03 humanoid after tests with previous version

BMW Group deploys Figure 03 humanoid after tests with previous version

In a significant advancement for automotive manufacturing, BMW Group has successfully utilized the Figure 02 robot to aid in the production of over 30,000 X3 vehicles over an 11-month period at its South Carolina facility. This deployment highlights the company's commitment to integrating advanced robotics into its production processes, enhancing efficiency and output. Following extensive testing of the Figure 02, BMW is now set to introduce the next iteration, the Figure 03 humanoid robot, further indicating the company's focus on innovation in manufacturing technology. The initiative not only aims to streamline operations but also reflects a broader trend in the automotive industry towards automation and robotics to meet increasing demand.

Artificial Intelligence Artificial Intelligence / Cognition Assembly Automotive Design / Development Humanoids
Inside NIO's AI factory, where cars build themselves

Inside NIO's AI factory, where cars build themselves

In Hefei, China, NIO's F2 electric vehicle plant showcases a fully automated body assembly line, eliminating the need for human labor. The facility is dominated by advanced machinery, particularly German-based KUKA robots, which work in unison to construct aluminum vehicle bodies. One robot expertly positions a door, while another ensures precise alignment using sensors, and additional robots perform welding tasks in mere seconds. This cutting-edge automation reflects the company's commitment to efficiency and innovation in the electric vehicle manufacturing sector, highlighting a significant shift towards robotics in automotive production.

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BlackBerry CEO Giamatteo Sees QNX Powering Growth

BlackBerry CEO Giamatteo Sees QNX Powering Growth

BlackBerry CEO John Giamatteo recently outlined the company's strategic shift towards becoming a leader in software and infrastructure, focusing primarily on its QNX operating system. During an interview with Bloomberg's Dani Burger and Alpine Saxon Woods Chief Market Strategist Sarah Hunt on "Bloomberg Open Interest," Giamatteo revealed that QNX now powers more than 275 million vehicles worldwide. He emphasized the system's expanding applications beyond automotive, noting its increasing use in robotics, medical devices, and industrial automation. This evolution reflects BlackBerry's commitment to diversifying its technology offerings and adapting to the growing demand for advanced software solutions across various industries.

NMS:NVDA TOR:BB
US robotics installations rebounded in 2025, on track for more growth: IFR

US robotics installations rebounded in 2025, on track for more growth: IFR

Global demand for robotics is surging, particularly driven by the automotive and electronics sectors, with significant deployments occurring primarily in China, Japan, and South Korea. Meanwhile, the United States is experiencing an increase in robotics applications, particularly in food production and supply chain services. This trend highlights the growing reliance on automation across various industries, as companies seek to enhance efficiency and productivity in response to evolving market needs.

Kwangjin Achieves Near-Zero Defects with Doosan Cobots

Kwangjin Achieves Near-Zero Defects with Doosan Cobots

Kwangjin Group, a leading automotive-parts manufacturer in South Korea, has significantly enhanced its production processes through the adoption of collaborative robots from Doosan Robotics. This transition, initiated in 2024 due to labor shortages, has transformed the riveting process at its Asan plant in South Chungcheong Province. By employing four Doosan Robotics collaborative robots, Kwangjin has reduced defects in its door-module assembly from approximately 12 defective plates per million to just one or two, effectively nearing zero defects. The robots, capable of lifting module plates and applying consistent pressure, have replaced manual labor, which was prone to errors due to variations in human skill and physical condition. The automation process took about four to six months and required an investment of approximately KRW 1.3 billion. Kwangjin chose Doosan Robotics over competitors due to its superior after-sales support and established technical response systems. The successful implementation of these robots has attracted attention from other Korean automotive manufacturers, who are visiting the Asan facility to observe the technology in action. Kwangjin plans to deploy over 100 collaborative robots across 17 global sites, including in the U.S. and Poland, by 2027. Meanwhile, Doosan Robotics aims to expand its intelligent robotic solutions by integrating AI and motion-control technologies, further solidifying its position in the automotive manufacturing sector.

DENSO Exhibits High-Performance Robots at Automate 2026

DENSO Exhibits High-Performance Robots at Automate 2026

DENSO, a leading global automotive supplier, is set to showcase its advanced robotics technology at an upcoming industry trade show. The demonstration will feature precision 4-axis and 6-axis robots, as well as collaborative robots designed to enhance manufacturing efficiency. Scheduled for next month in Tokyo, Japan, the event aims to highlight DENSO's commitment to innovation in automation and smart manufacturing solutions. The company seeks to address the growing demand for automation in the automotive sector, driven by the need for increased productivity and reduced labor costs. By integrating cutting-edge robotics into production lines, DENSO aims to streamline operations and improve overall performance in the industry.

Chinese automaker unveils Xiaosai humanoid robot for inspection and production roles

Chinese automaker unveils Xiaosai humanoid robot for inspection and production roles

Chinese automaker Seres has made a significant leap into the robotics sector by unveiling its first humanoid robot, Xiaosai. The announcement took place during a technology showcase event in Beijing, where the company highlighted its commitment to innovation and diversification beyond traditional automotive manufacturing. Xiaosai is designed to assist in various tasks, showcasing advanced artificial intelligence capabilities and a human-like appearance, which aims to enhance user interaction. This move comes as part of Seres' strategy to tap into the growing demand for robotics in both domestic and international markets, reflecting a broader trend among automakers to explore new technological frontiers. The introduction of Xiaosai is expected to position Seres competitively within the rapidly evolving landscape of robotics and automation.

AI and Robotics
Rivian CEO taking different approach than Elon Musk for humanoid robotics company

Rivian CEO taking different approach than Elon Musk for humanoid robotics company

RJ Scaringe, the CEO of electric vehicle manufacturer Rivian, has launched a new robotics venture named Mind Robotics, which has successfully secured over $1 billion in funding. The company was established in late 2022, reflecting Scaringe's ambition to expand beyond the automotive sector into the rapidly evolving field of robotics. This significant financial backing underscores investor confidence in the potential of Mind Robotics to innovate and contribute to advancements in automation technology. As the robotics industry continues to grow, Scaringe aims to leverage his expertise and resources to position Mind Robotics as a key player in this competitive market.

Toyota introduces over 400 Geekplus AMRs to multiple factories to enhance automated logistics.

Toyota introduces over 400 Geekplus AMRs to multiple factories to enhance automated logistics.

Geek Plus has announced the implementation of its autonomous mobile robots (AMRs) in multiple Toyota manufacturing plants. Currently, over 400 Geek Plus AMRs are operational across Toyota's facilities, with each system managing up to approximately 200 units. This deployment aims to enhance efficiency in the production process, reflecting the growing trend of automation in the automotive industry.

What is Needed for Embodied Intelligence to Truly Take Off?

What is Needed for Embodied Intelligence to Truly Take Off?

A recent article examines the increasing demand for embodied intelligence in manufacturing environments, emphasizing its benefits compared to conventional industrial robots. As factories evolve, the integration of real-world data has become crucial for the effective deployment of these advanced systems. The shift towards evaluating return on investment (ROI) is reshaping how manufacturers assess technology, particularly within the automotive sector, where flexibility in operations is paramount. This trend reflects a broader movement towards more adaptive and intelligent manufacturing processes, positioning embodied intelligence as a key player in the future of industrial automation.

Embodied Intelligence Industrial Automation Robotics Automotive Manufacturing
The startup aiming to place a humanoid in every factory and possibly every home.

The startup aiming to place a humanoid in every factory and possibly every home.

In just three years, Figure AI has skyrocketed to a valuation of $39 billion, surpassing many publicly traded automotive manufacturers and becoming the leading humanoid robot producer globally. This remarkable achievement was confirmed in September 2025 during a Series C funding round. The startup aims to integrate humanoid robots into factories and potentially households, reflecting a growing interest in automation and robotics. Figure AI's rapid rise highlights the increasing demand for innovative technologies in various sectors.

À la une IA Industrie Robotique automatisation industrielle IA avenir de la robotique
The Benefits of High-Speed Joint Actuation in Modern Articulated Robots

The Benefits of High-Speed Joint Actuation in Modern Articulated Robots

In the rapidly evolving manufacturing sector, JAKA Robotics is at the forefront of intelligent automation, showcasing the transformative capabilities of articulated robots, particularly collaborative robots (cobots). These advanced machines, equipped with high-speed joint actuation, are designed to enhance production efficiency and precision. The JAKA Pro5 articulated robot exemplifies this innovation, enabling accelerated production cycles through quick and precise movements that streamline loading, unloading, and assembly processes. This is particularly beneficial in time-sensitive industries like consumer electronics and automotive assembly, where reduced cycle times can significantly boost throughput. Moreover, the high-speed joint actuation not only increases speed but also enhances precision, ensuring consistent quality control in tasks such as component placement and welding. JAKA's robots maintain high accuracy over time, minimizing errors and reducing scrap rates, which is crucial for industries with stringent quality standards. The Pro5 model's compact design and user-friendly programming interface facilitate easy integration into existing production lines, allowing manufacturers to adapt swiftly to changing demands without extensive downtime. This flexibility empowers companies to optimize resources effectively and respond to market fluctuations. As industries continue to evolve, the role of high-speed joint actuation in articulated robots is becoming increasingly vital. By adopting JAKA's technology, organizations can modernize their production processes, improve workplace safety, and enable skilled workers to focus on higher-value tasks, positioning themselves for success in a competitive landscape.

AI-powered visual inspection using robots

AI-powered visual inspection using robots

GFT Technologies has unveiled an innovative AI-driven solution designed for automotive production, which integrates visual inspection with intelligent control of robotic systems. This advancement aims to enhance quality assurance processes within the industry, leveraging artificial intelligence to improve efficiency and accuracy in manufacturing. The announcement highlights GFT's commitment to advancing technology in automotive production, showcasing how AI can transform traditional inspection methods through automation.

Allgemein Künstliche Intelligenz & maschinelles Lernen Lösungen Robot Vision & Inspection
Inside Fuyao Glass, the Chinese auto-part supplier whose head earned a seat by Elon Musk

Inside Fuyao Glass, the Chinese auto-part supplier whose head earned a seat by Elon Musk

Fuyao Glass Industry Group has unveiled a state-of-the-art manufacturing facility in Anhui province, eastern China, showcasing a highly automated production process that operates at 90 percent automation. This advanced plant features numerous robotic arms and automated carriers that efficiently handle heavy automotive glass panes. The facility exemplifies the company's commitment to innovation and modernization in manufacturing, following its recognition in the 2019 Oscar-winning documentary "American Factory." By leveraging cutting-edge technology, Fuyao aims to enhance production efficiency and maintain its competitive edge in the automotive glass market.

Building a Strong Competitive Edge in the Era of Embodied Intelligence

Building a Strong Competitive Edge in the Era of Embodied Intelligence

Changguangxi Intelligent Manufacturing is making significant strides in the field of embodied intelligence by focusing on practical applications rather than theoretical concepts. The company, known for its expertise in collaborative robots and smart components for the automotive industry, is utilizing rigorous automotive standards to improve the reliability and performance of its products. This approach not only positions Changguangxi as a leader in intelligent manufacturing but also addresses the growing demand for advanced automation solutions in various sectors. As the industry evolves, the company's commitment to real-world implementation is set to drive innovation and enhance operational efficiency.

Collaborative Robots Automotive Technology Embodied Intelligence Motion Control
World's First! BMW Introduces Humanoid Robots on Production Line, Powered by Chinese Technology!

World's First! BMW Introduces Humanoid Robots on Production Line, Powered by Chinese Technology!

BMW has made a significant leap in industrial automation by integrating humanoid robots into its production line at the Leipzig plant, becoming the first German automaker to do so. The AEON robot, developed by Hexagon, will be responsible for high-pressure battery assembly and the production of precision components. This innovative move, which underscores BMW's commitment to enhancing efficiency and precision in manufacturing, was officially announced recently. The implementation of the AEON robot is expected to streamline operations and improve the overall quality of the production process, reflecting the growing trend of automation in the automotive industry.

Humanoid Robots Automotive Manufacturing Industrial Automation AI Technology
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Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.