Products

The RIOS Veneer Handler is an advanced robotic workcell designed to automate the handling of veneer sheets in mill operations. Utilizing sophisticated Artificial Intelligence (AI), it efficiently manages tasks such as sorting, stacking, and feeding veneer sheets, surpassing the capabilities of traditional sheet feeders and manual labor. This system ensures consistent output, enhances product quality, and reduces labor costs by intelligently adapting to the inherent variability of veneer material

Dexterity specializes in developing Physical AI-powered industrial superhumanoids, known as Mechs, designed to revolutionize logistics and supply chain operations. These advanced robots are engineered to perform complex physical tasks with human-like dexterity, enhancing efficiency and productivity in various industrial settings.

GrayMatter Robotics offers AI-powered robotic solutions designed to automate surface finishing tasks in high-mix manufacturing environments. Their systems, such as Scan&Sand™, Scan&Grind™, and Scan&Polish™, utilize proprietary GMR-AI™ technology to adapt to various part geometries without the need for complex programming or fixturing. This enables manufacturers to achieve consistent, high-quality results at speeds 2-4 times faster than manual methods. By reducing reliance on manual l

Swish Robotics introduces "Bento," an AI-powered countertop robot designed to revolutionize home cooking by preparing full meals from fresh ingredients in under 20 minutes. By integrating advanced computer vision and machine learning, Bento autonomously identifies ingredients, devises recipes, and cooks meals without human intervention, offering a seamless culinary experience.

Mimic Robotics specializes in developing scalable AI models for universal robotic manipulation, aiming to automate complex and tedious manual labor tasks across various industries, from retail to manufacturing. Their solutions integrate advanced AI with dexterous robotic hardware, enabling robots to perform tasks traditionally handled by humans.

Völur is a pioneering software company dedicated to transforming the meat processing industry through advanced artificial intelligence (AI) solutions. By integrating deep industry expertise with cutting-edge AI technology, Völur empowers meat processors to optimize carcass utilization, thereby enhancing operational efficiency and promoting sustainability. Their flagship product, the Völur Carcass Value Optimization system, provides actionable insights that enable producers to make informed decis

The Intelligent Lathe Blade Exchange System by RIOS is a robotic workcell designed to autonomously manage the entire process of lathe blade swapping, including removal, debris clearing, and precise replacement. This system enhances workplace safety by eliminating the need for manual blade changes, a task historically associated with significant injury risks in mills. By automating this complex process, the system not only safeguards employees but also reduces labor costs and increases operationa

Silana is pioneering the automation of garment production by introducing the first robot that fully automates the sewing process. This innovation transforms the traditionally manual and labor-intensive sewing step into a streamlined, automated operation, enabling the entire production cycle—from fabric roll to finished garment—to occur without human intervention. By integrating this technology, Silana facilitates sustainable, rapid, and cost-effective clothing manufacturing, even in high-wage re

Intenseye's Industrial Integrations enhance workplace safety by seamlessly connecting the Intenseye Platform with existing smart devices, sensors, and other operational technology (OT) and Internet of Things (IoT) equipment within industrial facilities. This integration enables real-time detection and immediate response to safety hazards, ensuring a proactive approach to employee health and safety.

Viam is a comprehensive software platform designed to simplify the development and management of smart machines across various industries. It offers an open-source server, `viam-server`, that runs on devices to manage hardware, software, and data, seamlessly connecting them to Viam's cloud services. The platform provides a user-friendly cloud application for configuring and overseeing machines, along with APIs for common hardware components and software services. With support for multiple progra

Bright Machines' AI-Driven Software revolutionizes manufacturing by integrating advanced software with robotics to enhance assembly automation. This comprehensive suite includes tools for design validation, process configuration, and real-time production monitoring, enabling manufacturers to achieve greater flexibility, efficiency, and quality in their operations.

Automated Guided Vehicles (AGVs) are self-operating, driverless vehicles designed to transport materials efficiently within industrial settings such as factories and warehouses. They follow predetermined paths, either physical (like magnetic strips) or virtual (using technologies like laser triangulation or vision guidance), to navigate through facilities.

ANSCER Robotics' AR Series comprises advanced Autonomous Mobile Robots (AMRs) engineered to enhance internal logistics and material handling across diverse industries. These robots autonomously navigate complex environments, efficiently transporting materials, lifting pallets, and towing trolleys, thereby reducing human error and improving workplace safety.

Path Robotics specializes in developing autonomous welding systems that leverage advanced artificial intelligence, machine learning, and computer vision to revolutionize the manufacturing industry. Their robotic solutions are designed to autonomously scan, position, and weld parts without the need for skilled welders or extensive programming, making manufacturing processes more efficient and adaptable.

Scope Computer Vision Technologies offers an advanced, AI-driven rope inspection system designed to enhance safety and efficiency in industries utilizing synthetic ropes. By integrating deep learning algorithms, Scope provides real-time, accurate assessments of rope integrity, enabling operators to identify potential hazards and prevent critical line failures. This innovative solution streamlines the inspection process, reducing downtime and operational costs.

Manukai offers an AI-driven solution designed to revolutionize metal machining processes by leveraging data from previous projects to enhance machine programming. Its suite of tools includes the CAM Copilot, CAM Analytics, and Data Cockpit, each tailored to optimize various facets of CNC programming and production.

Bright Machines' Smart Robotics offers software-driven automation solutions that enhance manufacturing efficiency and adaptability. By integrating advanced software with modular robotic systems, these solutions perform high-precision assembly tasks and make real-time adjustments during operations.

Teleo revolutionizes the construction and material-moving industries by transforming traditional heavy equipment—such as bulldozers, wheel loaders, and excavators—into supervised autonomous machines. This innovative approach allows a single operator to oversee multiple machines simultaneously from a remote command center, enhancing productivity, safety, and operational efficiency.

MiPA, or "My intelligent Personal Assistant," is a robotic assistant developed by NEURA Robotics to enhance human capabilities across various environments. By integrating advanced artificial intelligence and state-of-the-art sensors, MiPA is designed to safely and efficiently perform tasks ranging from industrial applications to personal assistance in homes. Its adaptability allows it to take over repetitive, exhausting, or even dangerous tasks, thereby improving productivity and safety.

The Multi-Sensing Autonomous Vehicle (MAV) by NEURA Robotics is an advanced autonomous mobile robot engineered to enhance intralogistics operations. With a payload capacity of up to 1,500 kg, MAV is adept at transporting larger goods, surpassing the capabilities of conventional autonomous mobile robots (AMRs). Its comprehensive sensor suite enables autonomous navigation without additional peripherals, ensuring seamless integration into various industrial environments.