American Android

American Droid is a robotics engineering and integration firm building robotic systems for military and public service missions. Provides end-to-end design, manufacturing, and integration of human-controlled robotic platforms for defense, emergency response, and critical infrastructure.

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American Android
1312 S Glenburnie Rd
New Bern, NC 28562
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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.

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Unitree Announces CMG 2026 Humanoid Robot Combat Competition with Global Reactions

Unitree Announces CMG 2026 Humanoid Robot Combat Competition with Global Reactions

Unitree has released a promotional video for the CMG 2026 Humanoid Robot Combat Competition, scheduled for July 9, 2026. The video showcases advanced humanoid robots engaging in combat with humans, highlighting their physical capabilities and martial arts techniques. The announcement has generated significant global interest, with many viewers expressing excitement about the potential for real-life robot combat akin to the film 'Real Steel.' The significance of this event lies in its exploration of human-AI co-evolution through competitive robotics. Viewers have praised the initiative for pushing technological boundaries, with some noting that testing robots against humans is the ultimate validation of their capabilities. Additionally, there is a call for matches where skilled fighters remotely control robots, reflecting a desire for greater recognition of Unitree's technological prowess in the field. Looking ahead, the competition is expected to spark further discussions on the implications of teaching combat skills to robots, with some comments drawing parallels to science fiction narratives like 'Terminator.' No further timeline was disclosed at the time of publication, but the event promises to be a focal point for advancements in humanoid robotics and AI technology in the coming years.

Bessemer Technology Secures Angel Funding for Motor Innovations in Robotics

Bessemer Technology Secures Angel Funding for Motor Innovations in Robotics

Bessemer (Shanghai) Technology, founded by Assistant Professor Zhu Wenjun from Xi'an Jiaotong-Liverpool University, has successfully raised millions in angel funding from the Pudong AI Seed Fund. Established in 2025 with a registered capital of 2 million yuan, the company holds two patents and aims to optimize motor technology and establish mass production lines with the new funding. This funding is significant as it marks a shift in investment focus towards core components like joint motors, which have been underdeveloped in China. While many domestic motor technologies remain in the experimental phase, Bessemer is building a complete chain from electromagnetic simulation to standardized hardware, addressing the gap between laboratory innovations and industrial production. Looking ahead, Bessemer's product line includes the E series and S series motors, designed for humanoid robots and medical devices, which could disrupt the market by offering lighter, more efficient alternatives to traditional motors. No further timeline was disclosed at the time of publication for upcoming product launches or additional funding rounds.

Motor Technology Robotics Angel Investment High-Tech Startups
NVIDIA and DeepMind Lead Robotics Simulation Debate with New Industrial Applications

NVIDIA and DeepMind Lead Robotics Simulation Debate with New Industrial Applications

The field of embodied intelligence is witnessing a fierce debate over the best approach to training robots for industrial applications. One faction advocates for simulation-based training, leveraging structured environments to generate synthetic data, while the opposing view emphasizes the necessity of real-world data to handle complex physical interactions and unpredictable scenarios. Key players include NVIDIA, DeepMind, and Intrinsic, each with unique strategies and technologies. NVIDIA's Omniverse platform and Isaac Sim engine exemplify the simulation approach, enabling comprehensive digital twins of factories for training and optimization. Their collaboration with BMW on a digital twin project in Hungary showcases the potential of synthetic data in logistics and robotic movements. However, challenges remain in achieving the necessary fidelity for force control and physical interactions, prompting NVIDIA to seek partnerships with companies like Hexagon Robotics. Conversely, DeepMind's use of the MuJoCo physics engine has demonstrated that pure simulation can achieve industrial-grade precision in specific tasks, such as sorting with known rigid models. Yet, this method's effectiveness is limited to scenarios with minimal contact and force control. Intrinsic aims to transform simulation into a comprehensive development tool for industrial robots, focusing on lowering barriers for small manufacturers. The ongoing challenge of the SIM2REAL gap remains a critical factor in the success of these approaches.

Robotics Industrial Automation Simulation Technology AI
JAIST and King's College Develop EleTac Soft Gripper with Integrated Tactile Sensing

JAIST and King's College Develop EleTac Soft Gripper with Integrated Tactile Sensing

Researchers from Japan's JAIST and King's College London have developed EleTac, a soft robotic gripper inspired by the trunk of an elephant. This innovative design integrates grasping, external tactile perception, and proprioception within a single soft structure. The gripper can manipulate various objects, including tofu and fabric, while estimating contact position and force using a vacuum system operating at 30 kPa. The significance of EleTac lies in its ability to handle delicate and irregularly shaped items, addressing the challenges of soft robotics. Traditional rigid grippers utilize clear joints for sensing, while soft grippers often struggle with limited perception due to their material properties. EleTac's design allows for continuous tactile sensing across its surface, enhancing its ability to discern between self-induced deformations and external contacts. Future developments will focus on refining the visual-based tactile sensing capabilities of EleTac, which utilizes an internal optical system to monitor material deformation. This advancement could lead to improved performance in applications requiring precise manipulation of fragile objects. No further timeline was disclosed at the time of publication.

Soft Robotics Tactile Sensing Proprioception Robotic Grippers
RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

Ukrainian robotics firm RoverTech has developed the Zmyi, a versatile ground robot that has achieved an impressive average of 57 missions in the frontline kill zone. Weighing 800 kilograms and equipped with various configurations for tasks such as demining and combat, the Zmyi is designed to evade detection by enemy drones, making it a critical asset in Ukraine's defense strategy. The significance of the Zmyi lies in its ability to operate effectively in high-risk environments, outperforming typical uncrewed ground vehicles (UGVs) that usually complete only seven missions. This advancement reflects a broader trend in Ukraine's military technology, where UGVs are increasingly replacing traditional armored vehicles due to their lower cost and adaptability for urgent battlefield needs. Looking ahead, Ukraine's President Volodymyr Zelenskyy has ordered the procurement of 50,000 UGVs by the end of 2026, significantly increasing the military's robotic capabilities. As the conflict evolves, the integration of UGVs with aerial reconnaissance is expected to reshape frontline tactics, although no further timeline was disclosed at the time of publication.

Ground-robots Ukraine Unmanned-vehicles Ugvs Sensor-networks
XAG Introduces RM80 Electric Mower and X Series Drone System for Autonomous Farming

XAG Introduces RM80 Electric Mower and X Series Drone System for Autonomous Farming

XAG has launched the RM80, a 143 kg all-electric unmanned mower, at the Agricultural Robot Conference in Guangzhou, China. Designed for orchard management and land reclamation, the RM80 operates for up to 40 minutes per charge and can autonomously cover 0.33 to 0.53 hectares per hour. It features advanced navigation through the SuperX 5 Ultra control system and can also perform stubble removal for effective weed control. The introduction of the RM80 coincides with the unveiling of XAG's new X Series drone system, aimed at creating a fully autonomous farming workflow. This system includes the X Series drone, XA1 docking station, and LM1 chemical mixing unit, enhancing automation in tasks like charging and chemical refilling. The drone boasts improved computing power and perception capabilities, allowing it to survey up to 300 hectares in a single mission, while the docking station ensures precise automatic charging and refilling. XAG has not disclosed pricing details for the RM80 or the X Series system, with market packages expected to vary based on local dealer offerings. The company's strategy emphasizes integrating various robotic functions into a coordinated workflow, positioning its equipment as essential components of modern smart farming rather than standalone tools. No further timeline was disclosed at the time of publication.

Smart farming agricultural robots autonomous technology drone technology electric tractors robotic harvesting
1X Enhances NEO Humanoid Robot with Advanced 25-DOF Hands for Versatile Tasks

1X Enhances NEO Humanoid Robot with Advanced 25-DOF Hands for Versatile Tasks

Norwegian robotics firm 1X has introduced new 25-degree-of-freedom (DOF) tendon-driven hands for its NEO humanoid robot, marking a significant advancement in robotic dexterity. These hands feature 22 actuated joints across the fingers and palm, along with three at the wrist, enabling NEO to perform tasks such as assembling LEGO models and catching balls with precision and strength. The redesigned hands allow for force sensing and durability, overcoming previous hardware limitations in robotic manipulation. With a unique tendon-drive system and low gear ratios, the hands can detect contact forces and provide continuous proprioception, enhancing the robot's ability to manipulate objects safely and effectively. The hands' human-like joint distribution, particularly the opposable thumb, facilitates a wide range of fine manipulation tasks, making NEO suitable for various household applications. 1X has commenced mass production of the NEO robot at its new California facility, aiming to commercialize home robots for daily assistance. The company emphasizes the hands' combination of precision, strength, and safety features, including IP68 waterproofing and self-cleaning capabilities. No further timeline was disclosed at the time of publication.

AI and Robotics
Dogtooth Technologies Secures £14 Million for AI-Powered Strawberry Harvesting

Dogtooth Technologies Secures £14 Million for AI-Powered Strawberry Harvesting

UK-based Dogtooth Technologies has successfully raised over £14 million in funding to enhance its AI-driven strawberry picking robots. The financing, provided by 24 Haymarket, EMV Capital, and ACF Investors, along with a grant from Innovate UK, aims to accelerate the deployment of these robots in both the UK and international markets. The company has already established a fleet of approximately 70 robots operating on commercial farms in the UK and Australia, harvesting tens of tons of fruit each season. The significance of this funding lies in addressing the ongoing labor shortages in agriculture, which have made robotic harvesting a necessity rather than a luxury. Dogtooth's robots utilize advanced computer vision and precision mechanical arms to autonomously navigate complex growing environments, identify ripe fruit, and perform harvesting without damage. This technology allows for continuous operation, even in cooler night conditions, thereby extending the shelf life of harvested produce. Looking ahead, Dogtooth Technologies is poised to expand its market presence, having recently delivered systems to Dyson Farming, a UK indoor berry producer. As the global horticultural industry grapples with seasonal labor shortages and rising costs, the successful deployment of these agricultural robots could signal a shift towards more widespread adoption of embodied intelligence in farming. No further timeline was disclosed at the time of publication.

Agricultural Robotics AI Technology Fruit Harvesting Embodied Intelligence
Lu Ce Wu Advances Embodied Intelligence at Qiongche Intelligent in China

Lu Ce Wu Advances Embodied Intelligence at Qiongche Intelligent in China

Lu Ce Wu, a scientist from Chaoshan, has made significant strides in the field of embodied intelligence, establishing Qiongche Intelligent in 2023. This venture aims to enhance robotic capabilities, with a focus on real-world applications. In 2025, Qiongche's robots will be deployed in a pharmacy in Shenyang, demonstrating autonomous navigation and product recognition without altering existing systems. The significance of Lu's work lies in his commitment to embodied intelligence, a concept he believes should extend beyond digital confines to interact with the physical world. His journey began in 2012 when he recognized the potential of AI after witnessing AlexNet's success. Despite initial challenges in promoting embodied intelligence in China, Lu's persistence has led to recognition, including the Science Exploration Award in 2023, making him the first recipient in this field. Looking ahead, Lu plans to further develop Qiongche Intelligent's capabilities and has established the first AI doctoral program in China. He emphasizes the importance of strategic planning and talent cultivation to prepare for the future of embodied intelligence. No further timeline was disclosed at the time of publication.

Embodied Intelligence Robotics Artificial Intelligence Technology Innovation
Seoul University Introduces Single-Layer Artificial Skin for Enhanced Robotic Sensory Perception

Seoul University Introduces Single-Layer Artificial Skin for Enhanced Robotic Sensory Perception

On July 10, a research team led by Professor Seung Hwan Ko at Seoul University published a significant study in Nature Materials, unveiling a novel single-layer artificial skin. This innovative material allows robots to simultaneously sense temperature and pressure, mimicking human sensory capabilities. The design utilizes a silver-core-copper oxide shell nanowire network, enabling rapid switching between temperature and mechanical sensing modes at a frequency of 16 Hz. The development is crucial as it addresses the limitations of existing artificial skin technologies, which typically rely on multiple stacked sensors, resulting in complex structures and slower response times. The new sensor demonstrates remarkable response speeds, with mechanical stimuli detected in microseconds and thermal stimuli in milliseconds. When combined with AI models, the sensor's accuracy in object recognition improved from 65% to 95% by integrating signals from both sensing modes, showcasing its potential for real-world applications. Looking ahead, the research team has created a multi-array platform that can measure temperature and pressure distribution with spatial resolution comparable to human skin. This technology not only serves as a fingertip sensor but also has the potential to evolve into a comprehensive artificial skin system for robots. The team emphasizes that this advancement is a key enabling technology for physical AI systems, allowing machines to perceive and interact with their environment more effectively. No further timeline was disclosed at the time of publication.

Artificial Skin Robotics Sensor Technology AI Human-Robot Interaction
Humanoid Robot Wire Harnesses Emerge as a Critical System Technology

Humanoid Robot Wire Harnesses Emerge as a Critical System Technology

A RobotToday engineering deep dive into humanoid robot wire harnesses: 3D dynamic fatigue, 10-100 Gbps EMI shielding, FPC cost reduction, and global standards.

Pittsburgh Regional Alliance Convenes Nine CMU-Rooted Robotics Firms at Automate 2026

Pittsburgh Regional Alliance Convenes Nine CMU-Rooted Robotics Firms at Automate 2026

At Automate 2026, the Pittsburgh Regional Alliance convened nine robotics firms — most spun out of Carnegie Mellon — spanning materials, perception and AMRs.

The EV Déjà Vu: Why China's Humanoid Robot Blitz May Be Winning the Battle — but Losing the War

The EV Déjà Vu: Why China's Humanoid Robot Blitz May Be Winning the Battle — but Losing the War

China controls 80% of humanoid robot shipments and crushes hardware costs. But is winning the body enough? A deep analysis of the US-China robot war beyond the EV analogy.

DBR77 Launches Consultify™ AI Platform at Automate 2026 | Industrial Reasoning for Manufacturing

DBR77 Launches Consultify™ AI Platform at Automate 2026 | Industrial Reasoning for Manufacturing

DBR77 introduces Consultify™, powered by Vector™ Industrial Reasoning Engine, at Automate 2026. The AI platform helps manufacturers identify automation opportunities, prioritize investment, and produce ROI-backed action plans in under two minutes.

Taiwan Excellence Pavilion at Automate 2026: 23 Companies Showcase Edge AI and Robotics

Taiwan Excellence Pavilion at Automate 2026: 23 Companies Showcase Edge AI and Robotics

Taiwan Excellence Pavilion brings 23 certified companies to Automate 2026 in Chicago (June 22–25), showcasing edge AI, collaborative robots, precision motion and industrial computing solutions for U.S. smart manufacturing.

Supply Chain Reckoning: Can Boston Dynamics Avoid Becoming the Next iRobot?

Supply Chain Reckoning: Can Boston Dynamics Avoid Becoming the Next iRobot?

A data-driven analysis comparing Boston Dynamics Atlas and Tesla Optimus supply chain strategies in 2026. Examines actuator costs, production ramp speeds, and how Boston Dynamics can avoid iRobot's bankruptcy by adopting a tiered supply chain approach. Includes component cost tables, risk heat maps, and strategic frameworks.

RoboBusiness 2026 | Oct 20–21, Santa Clara | Commercial Robotics Business Conference

RoboBusiness 2026 | Oct 20–21, Santa Clara | Commercial Robotics Business Conference

RoboBusiness 2026 takes place October 19–21 at the Santa Clara Convention Center. Produced by WTWH Media (The Robot Report / RBR), this premier commercial robotics event covers business strategy, investment, deployment trends, and innovations across manufacturing, logistics, healthcare, and more.

IMTS 2026: North America's Largest Manufacturing Technology Show | Chicago Sept 14–19

IMTS 2026: North America's Largest Manufacturing Technology Show | Chicago Sept 14–19

IMTS 2026 — the 36th edition of the International Manufacturing Technology Show — returns to McCormick Place, Chicago, September 14–19. 2,000+ exhibitors, 114,000 attendees, covering industrial robots, AI manufacturing, CNC, and automation.

FABTECH 2026 | Oct 21–23, Las Vegas | Welding, Fabrication & Manufacturing Robotics

FABTECH 2026 | Oct 21–23, Las Vegas | Welding, Fabrication & Manufacturing Robotics

FABTECH 2026 returns to Las Vegas, October 21–23, for North America's largest metal forming, fabricating, welding, and finishing event. 31,000+ attendees, 1,500+ exhibitors. Key showcase for industrial robot welding and automation applications.

Fifty to One: Inside Figure’s Sky-High Valuation and the Sino-U.S. Tug-of-War Over Humanoid Robots

Fifty to One: Inside Figure’s Sky-High Valuation and the Sino-U.S. Tug-of-War Over Humanoid Robots

Figure’s soaring valuation highlights intensifying U.S.–China competition in humanoid robotics, as capital, supply chains, and AI strategy reshape the global race for embodied intelligence.