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Website: https://bulkhandlingsystems.com
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Email: [email protected]
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Phone: 541.485.0999
BHS Bulk Handling Systems provides bulk material handling and conveyor automation solutions for recycling, waste management, and logistics facilities. Specializes in integrated sorting and conveying systems for industrial operations.
RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.
Biren, a Shanghai-based startup, is pioneering optical technology to connect thousands of AI accelerators into unified computing systems. As AI models grow increasingly complex, the demand for efficient interconnectivity among GPUs has intensified, with traditional copper connections reaching their limits. Biren's innovative near-packaged optics (NPO) architecture aims to support clusters of up to 1,024 AI accelerator cards, significantly enhancing computing capabilities. This advancement is crucial for AI infrastructure companies striving to meet the needs of models with trillions of parameters. Biren's approach addresses the scalability challenges faced by conventional server architectures, which typically cap at around 128 GPUs. By positioning optical fibers closer to chips, the company enhances bandwidth and data transmission efficiency, positioning itself against competitors like MetaX and Alibaba. Looking ahead, Biren is testing its NPO interconnect system while also developing an orthogonal hardware architecture in collaboration with ZTE. Although the semiconductor industry is still in the early stages of optical interconnect technology, widespread adoption is projected for around 2028, contingent on further advancements and real-world validation of these systems.
InterestingEngineering.com 6 hours ago AI and RoboticsResearchers from MIT, IBM, and Red Hat have introduced the Geometric Inference Feedback Tuning (GIFT) framework, which enhances AI's ability to convert 2D images into functional CAD programs. This innovation significantly improves design accuracy while reducing inference computation by approximately 80%. The GIFT framework addresses the challenge of limited high-quality CAD training data by utilizing the AI's own mistakes as a learning tool. The importance of this development lies in its potential to streamline the CAD design process, which is often hindered by the need for extensive datasets linking images to CAD programs. By focusing on 'near-misses'—outputs that are close to correct—the GIFT framework provides valuable insights into the AI's understanding, ultimately leading to better training examples and more reliable designs. Looking ahead, the GIFT framework's dual techniques, including GIFT-REJECT, promise to further refine AI-generated CAD outputs. As the research progresses, the effectiveness of GIFT in real-world applications will be closely monitored, particularly in industries reliant on precise CAD designs, such as aerospace and automotive engineering. No further timeline was disclosed at the time of publication.
InterestingEngineering.com 12 hours ago AI and RoboticsBritish aerospace company Vertical Aerospace is preparing to conduct its inaugural public electric vertical take-off and landing (eVTOL) flight demonstrations at the Farnborough International Airshow. This event marks a significant milestone in the company's journey toward certification and the launch of commercial electric aircraft services. The demonstrations are crucial as Vertical Aerospace has recently unveiled its Valo aircraft and completed successful piloted transition flights. The company has also strengthened its financial position and expanded its global technology partnerships, all while advancing its certification program. CEO Stuart Simpson emphasized that these milestones are vital for reducing risk and enhancing the company's competitive stance in the electric aerospace sector. Looking ahead, Vertical Aerospace aims to complete its Critical Design Review by the end of 2026, which will establish the certifiable design baseline for its aircraft. The company plans to bring its early production aircraft assembly facility online in Q3 2026 and begin hybrid-electric flight testing in the first half of 2027. No further timeline was disclosed at the time of publication.
InterestingEngineering.com 12 hours ago TransportationPalm Garden AI has developed Coherence Guard, a relational decision layer aimed at improving the behavior of service robots in human environments. This platform-agnostic technology evaluates actions before execution, ensuring they are relationally coherent by considering factors such as timing, proximity, and emotional tone. The significance of Coherence Guard lies in its potential to enhance the interaction between humanoid robots and humans in various sectors, including hospitality, care, and education. CEO Joachim Scheuerer emphasized that the technology does not replace existing systems but adds a crucial layer for evaluating social appropriateness, which is essential as robots become more integrated into everyday life. Looking ahead, the demand for such relational decision-making capabilities is expected to grow as service robots become more prevalent in human-centric environments. No further timeline was disclosed at the time of publication.
RoboticsBusinessReview.com 12 hours ago Artificial Intelligence Artificial Intelligence / Cognition Development Tools / SDKs / Libraries Healthcare Robotics Human Robot Interaction / Haptics HumanoidsFaraday Future's AI subsidiary, FFAI, announced its accelerated expansion into commercial robotics at Automate 2026 in Chicago. The company showcased its 'one brain, multiple forms' robotics platform and revealed that June robot shipments are expected to exceed 100 units, bringing total first-half deliveries to over 220 units, surpassing its initial target ahead of schedule. This milestone is significant as it marks FFAI's transition from an education-focused robotics business to industrial automation, targeting commercial deployments across manufacturing, logistics, and research. The company presented a range of robotics products, including the All-New Futurist humanoid robot and the FF Faber mobile manipulator series, highlighting its commitment to integrating advanced AI technologies into various applications. Looking ahead, FFAI outlined a broader strategy focused on an open embodied AI ecosystem, which includes its EAI Brain software platform and an EAI Data Factory for operational data collection. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 12 hours ago Artificial Intelligence Events News ai All-New Futurist Automate 2026Fujitsu has initiated a partnership with Japanese robotics firms Fanuc, Yaskawa Electric, and Kawasaki Heavy Industries to advance the development and deployment of physical AI in sectors such as manufacturing, logistics, and healthcare. This collaboration will leverage Nvidia's physical AI technologies to create a collaborative control platform that connects digital systems with robots and physical equipment. The initiative aims to accelerate the adoption of physical AI, addressing challenges like labor shortages and an aging workforce while enhancing global competitiveness. The platform will optimize production planning in manufacturing, automate material handling in logistics, and improve healthcare operations by automating the transport of medical supplies and assisting with patient interactions. Fujitsu plans to develop an open collaborative control platform that integrates AI, robotics, and data analysis technologies, ensuring interoperability and addressing cybersecurity concerns. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 12 hours ago Artificial Intelligence Industry News ai factory automation fanucToyota and Nvidia have broadened their partnership to develop physical AI technologies that encompass next-generation vehicles, manufacturing, robotics, and urban infrastructure. This collaboration builds on a previous agreement, focusing on advanced driver-assistance systems using Nvidia's DRIVE AGX platform and DriveOS operating system. The significance of this partnership lies in its potential to revolutionize mobility and manufacturing. Rishi Dhall, Nvidia's vice president of automotive, emphasized that physical AI will enhance the intelligence of various machines, making vehicles more autonomous and urban environments safer and more responsive. Toyota aims to implement Level 2++ functionality in its future vehicles while leveraging Nvidia AI models for efficient software engineering. Additionally, Toyota is integrating AI into its manufacturing processes through factory simulations using Nvidia's Omniverse and Isaac Sim frameworks. The partnership also extends to urban mobility technologies via Woven by Toyota, which is developing models to analyze traffic conditions. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 12 hours ago Computing News advanced driver assistance systems ai automotive AI digital twinsOn July 15, Ofo, the bike-sharing company, unexpectedly updated its official WeChat account after nearly five years of silence. The post was a recruitment notice for patients with skin diseases, unrelated to its bike-sharing business, yet it sparked significant public interest regarding unrefunded deposits. Many users expressed their concerns, asking when their deposits would be returned. Despite widespread belief that Ofo had ceased operations, records indicate that its associated operational entity, Beijing Baike Lock Technology Co., Ltd., remains active. However, the company faces high-risk information, including numerous legal cases and enforcement actions, which raises questions about its future viability. As Ofo navigates this uncertain landscape, stakeholders should monitor any developments regarding its operational status and the potential for deposit refunds. No further timeline was disclosed at the time of publication.
36kr.com 12 hours agoWarehouse automation is evolving from a mere operational efficiency tool to a strategic priority for organizations, driven by ongoing labor shortages and rising fulfillment expectations. Inteq, a UK-based warehouse automation specialist, emphasizes the importance of integrating robotics and software to create flexible, hardware-agnostic solutions that adapt to changing operational needs. Jon Roberts, sales director at Inteq, highlights that software, particularly Warehouse Execution Systems, is now the critical component of successful automation projects. These systems serve as the central hub connecting robotics, equipment, and personnel, enabling more efficient operations. The shift towards software-first strategies reflects a broader trend where businesses recognize the risks of inaction in the face of increasing competition and complexity in supply chains. Looking ahead, companies investing in integrated automation platforms are likely to gain a competitive edge in logistics and fulfillment. The conversation also touches on the growing role of AI in predictive operations and the transition of autonomous mobile robots into essential warehouse infrastructure, supported by innovative commercial models like Robotics-as-a-Service. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 12 hours ago Features Logistics Supply chain Warehouse robots amrs artificial intelligencePanasonic Connect is at the forefront of transforming manufacturing systems as electronics become smaller and more complex. The company offers smart manufacturing solutions that integrate surface-mount technology (SMT), robotics, AI analytics, and connected factory platforms. Through its Gemba Process Innovation strategy, Panasonic Connect aims to enhance productivity and operational resilience in factories. The increasing complexity of electronics, particularly in vehicles and industrial systems, is reshaping production line design and operations. Scott Zerkle, associate director of technical operations at Panasonic Connect North America, emphasizes that AI's primary value lies in supporting factory workers through predictive maintenance and defect detection, rather than replacing them. He highlights the need for manufacturers to connect data across various production elements to foster continuous improvement. Looking ahead, Zerkle predicts that the next significant advancement in smart manufacturing will involve integrating AI tools with data from machines and materials. This integration will enable factories to learn from their production history, ultimately enhancing efficiency and adaptability in high-mix production environments. No further timeline was disclosed at the time of publication.
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