NaturalPoint OptiTrack

NaturalPoint develops optical motion capture hardware and software under the OptiTrack brand, targeting animation, virtual reality, movement sciences, and robotics applications. The company also produces 6DoF head-tracking devices for gaming and assistive technology.

Share
NaturalPoint OptiTrack
3658 NW Aloclek Pl
Hillsboro, Oregon 97124
RobotToday Initiative

Robotics needs a service framework.

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

Share

Related Content

Om AI Launches VLX Series for Physical AI with Unique Streamlined Architecture

Om AI Launches VLX Series for Physical AI with Unique Streamlined Architecture

Om AI has introduced the VLX series, the world's first edge-based streaming multimodal model for physical AI, designed to integrate continuous perception, precise localization, and decision-making. This innovative architecture, which emerged from years of focused development, positions Om AI at the forefront of the physical AI sector, which has seen over $6.4 billion in funding in the first quarter of 2026 alone. The significance of the VLX series lies in its ability to provide a cohesive framework that allows various physical devices, such as robots, drones, and security cameras, to transition from passive execution to active scene adaptation. This shift is crucial as the industry moves from digital AI to physical AI, with a growing emphasis on real-world applications and the need for robust, responsive systems. Looking ahead, the industry is expected to witness further advancements in physical AI, particularly as the demand for edge-based intelligent systems increases. Om AI's commitment to developing the VLX series reflects a strategic response to the evolving landscape, with no further timeline disclosed at the time of publication for upcoming milestones or product releases.

Cyborg Cockroaches Equipped for Underwater Rescue Operations

Cyborg Cockroaches Equipped for Underwater Rescue Operations

Researchers from Nanyang Technological University in Singapore and Waseda University in Japan have developed a unique application for cyborg Madagascar hissing cockroaches. By outfitting these insects with miniature diving suits, they can now navigate underwater for up to three hours, providing innovative solutions for disaster rescue operations. This advancement is significant as it combines living organisms with electronic devices, allowing the cockroaches to utilize their own muscle and nervous systems for movement. Unlike purely mechanical robots, these cyborg cockroaches have a lower energy consumption, making them more efficient for tasks in challenging environments, such as underwater scenarios. The research team is currently enhancing these cyborg cockroaches with miniature sensors, cameras, and advanced navigation systems. In the future, they may be deployed in disaster situations like floods or earthquakes to access hard-to-reach areas, helping rescue teams locate trapped individuals. No further timeline was disclosed at the time of publication.

Cyborg Insects Disaster Rescue Technology Underwater Robotics Microelectronics
Advancements in Embodied Intelligence: Robots Learning Through Experience

Advancements in Embodied Intelligence: Robots Learning Through Experience

A robot in a warehouse near Austin has fallen for the 4,000th time without assistance, showcasing the progress of embodied intelligence. This technology allows machines to physically interact with the world, fundamentally changing how they learn. Instead of merely processing information, these robots learn through experience, such as understanding gravity by knocking over objects. Embodied intelligence is gradually integrating into daily life, with humanoid robots working on assembly lines and assisting police in Hangzhou. In Malaysia, the Prime Minister introduced an AI digital twin to handle citizen inquiries autonomously. However, in Europe, there is growing concern about job displacement, with unions negotiating wage structures in anticipation of humanoid robot deployment. The societal divide is evident: while Asian countries view robots as helpful assistants, Europeans express fears of job loss. The future of embodied intelligence will depend on societal acceptance, highlighting a complex relationship between technology and human values. No further timeline was disclosed at the time of publication.

Embodied Intelligence Robotics AI Technology Human-Robot Interaction
At Goodwood, Robots Explore Their Role in Enhancing Human Experience

At Goodwood, Robots Explore Their Role in Enhancing Human Experience

At the Goodwood Cricket Ground, a fox-eared robot on roller skates greeted visitors without imitating humans or threatening to replace them, showcasing its unique identity. This event, part of the FOS Future Lab's Intelligent Systems Zone, featured three exhibitors presenting diverse answers to the question of what intelligent machines should do for humanity. One Sheffield startup, led by Raspberry Pi co-founder Liz Upton, demonstrated a method for programming robots using simple English. A robotic arm responded to natural language commands, with COO Eleanor Tang-Smith emphasizing the goal of making robots perform tasks that humans find tedious. Meanwhile, a large screen displayed a real-time reconstruction of Goodwood's famous Taylor Garage, merging digital and physical worlds seamlessly. The fox-eared robotic dogs, designed in Paris, avoided the 'uncanny valley' by engaging with humans through expressive features. They are already in use in hospitals and airports for tasks like transporting and assisting, allowing humans to focus on more urgent matters. The event highlighted three approaches to human-robot interaction, emphasizing the importance of language, vision, and gestures in redefining the interface between humans and machines.

Robotics AI Spatial Computing Human-Robot Interaction
New Soft Floating Robot Inspired by Animation Aims to Enhance Human Connection

New Soft Floating Robot Inspired by Animation Aims to Enhance Human Connection

Researchers from Keio University and MIT Media Lab have unveiled a soft floating robot designed to foster emotional connections without traditional robotic features. Unlike conventional robots, this helium-filled creation resembles a white whale, responding to human touch with gentle movements rather than mechanical sounds or speech. The significance of this innovation lies in its ability to bypass the 'uncanny valley' effect, which often causes discomfort when robots closely mimic human appearance. By avoiding human-like features and instead utilizing soft materials and subtle movements, the robot can convey intentions and emotions, making it a safer and more approachable companion in everyday environments. Looking ahead, the research team plans to integrate multimodal interactions, allowing the robot to sense human posture, voice, and gaze to enhance its floating interactions. This approach aims to create a gentle presence that accompanies humans without the need for speech or complex thought, marking a new era in human-robot coexistence.

Soft Robotics Human-Robot Interaction Emotional AI Floating Robots
Ant Group's Robotics Subsidiary Introduces Innovative Robot Brain Technology

Ant Group's Robotics Subsidiary Introduces Innovative Robot Brain Technology

Ant Group's robotics subsidiary, Robbyant, has adopted a unique approach by prioritizing the development of a robot brain over hardware design. This strategy leverages the AI infrastructure behind Alipay, which processes billions of payment transactions daily, to enhance robots' ability to perceive their environment and make autonomous decisions. The introduction of the LingBot-VA 2.0 marks a significant advancement as it is the world's first embodiment-native pre-trained VA base model, specifically tailored for robots. In real-world tests, robots equipped with this model achieved a remarkable success rate of 93.6% in dual-arm tasks, showcasing the potential of this innovative technology. As hardware becomes increasingly standardized, the focus on software intelligence and data advantages is emerging as a new competitive edge. Ant Group's initiative to create a robot brain from its extensive payment data aims to bridge the gap between the digital and physical worlds, positioning Robbyant as a leader in the robotics field.

Robotics AI Machine Learning Automation
Singapore Team Develops ME-SOFS: A Mechanical Sensor for Touch Perception Without Electronics

Singapore Team Develops ME-SOFS: A Mechanical Sensor for Touch Perception Without Electronics

A research team from the National University of Singapore has introduced a groundbreaking soft force sensor called ME-SOFS, which converts touch into fluid-driven motion without any electronic components. This innovative sensor features a 3D-printed soft porous structure with a central pillar connected to five fluid-filled chambers. When pressure is applied, the pillar tilts, compressing the corresponding chamber and driving fluid to actuators, enabling the detection of forces in multiple directions. The significance of ME-SOFS lies in its ability to operate without electronic interference, making it ideal for applications in medical training and elderly care. The sensor can generate readable signals through integrated magnets and coils, allowing it to measure force without external power. This technology has been successfully demonstrated in a soft glove that detects grip strength and predicts object weight, as well as in a tactile feedback system that enables operators to control robotic arms through force feedback. Looking ahead, the ME-SOFS sensor demonstrates robust performance under extreme conditions, such as high temperatures and underwater pressures. Its unique design allows it to function effectively in various environments, making it a valuable tool for soft robotics that require safe interaction with humans. No further timeline was disclosed at the time of publication.

Soft Robotics Fluid Sensors Mechanical Systems Robotics Technology
Vbot Launches Daitou EDU: A Versatile Quadruped Robot Development Platform

Vbot Launches Daitou EDU: A Versatile Quadruped Robot Development Platform

Vbot has introduced the Daitou EDU, a quadruped robot development platform designed for real-world applications. Unlike traditional robots that focus on speed and agility, the Daitou EDU emphasizes the importance of practical use cases in various sectors, such as property management and healthcare. The significance of the Daitou EDU lies in its advanced capabilities, including 128 TOPS edge computing power, integrated perception hardware, and autonomous mobility features. This platform allows developers to create applications without starting from scratch, addressing the gap between robotic capabilities and practical applications in diverse environments. Looking ahead, the Daitou EDU represents a shift in the robotics industry towards creating adaptable robots that can be redefined for multiple scenarios. As developers begin to leverage its features, the potential for innovative applications in various fields will expand, raising questions about the future roles of robots in everyday life.

Quadruped Robots Robotics Development Embodied Intelligence AI Applications
Lingbo Develops Unique Robot Intelligence Platform Using Ant Group's Payment Ecosystem Data

Lingbo Develops Unique Robot Intelligence Platform Using Ant Group's Payment Ecosystem Data

Lingbo, a robotics subsidiary of Ant Group, has announced the development of a novel robot intelligence platform that utilizes data from Ant's extensive payment ecosystem. This initiative aims to enhance embodied AI capabilities and was unveiled recently, marking a significant step in the integration of financial data into robotics technology. The significance of this development lies in its unconventional approach to AI, which leverages real-time transaction data to inform and improve robot decision-making processes. By tapping into Ant Group's vast data resources, Lingbo aims to create more adaptive and intelligent robotic systems that can better understand and respond to human interactions in various environments. Looking ahead, Lingbo's next steps in this project remain unclear, as no further timeline was disclosed at the time of publication. Industry observers will be keen to see how this integration of financial data into robotics will influence the market and the potential applications that may arise from this innovative approach.

Technology
Dexmal Launches DM0.5 Model and DexOS to Enhance Embodied AI Productivity

Dexmal Launches DM0.5 Model and DexOS to Enhance Embodied AI Productivity

Dexmal has introduced its DM0.5 foundation model, Apex universal robot, DexOS operating system, and MaaS platform, aiming to bridge the engineering gap between embodied AI models and practical productivity. This launch marks a significant step in the company's strategy to enhance the application of AI in real-world scenarios, with a focus on improving operational efficiency. The introduction of these products is crucial as they represent a comprehensive approach to integrating AI into various sectors. By addressing the final engineering challenges, Dexmal seeks to enable more seamless interactions between AI systems and physical environments, potentially transforming workflows across industries. The DM0.5 model is designed to optimize performance, while DexOS provides a robust operating framework for managing AI tasks. Looking ahead, Dexmal's three-stage strategy will be pivotal in determining the success of these innovations. The company has not disclosed specific timelines for the rollout of these products, but the focus on enhancing productivity through embodied AI suggests a proactive approach to market demands and technological advancements.

Technology