MQ Automation

MQ Automation is a US industrial automation distributor and engineering service provider supplying pneumatic, electrical, and mechanical automation components. The company offers custom panel design, system integration, safety solutions, electrical design, and on-site support for manufacturing automation projects.

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MQ Automation
7751 N. 81st Street
Milwaukee, WI 53223
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MIT and EPFL Develop Flapping Robot for Seamless Water-Air Transition with Advanced Wing Design

MIT and EPFL Develop Flapping Robot for Seamless Water-Air Transition with Advanced Wing Design

Researchers from MIT and EPFL have created a flapping robot capable of transitioning between water and air without legs. Weighing approximately 250 grams, the robot features a streamlined body, two flexible wings, and a controllable tail. It can flap its wings at frequencies of up to 6 Hz underwater and 5.2 to 11 Hz in the air, mimicking the behavior of diving birds, as detailed in a recent Science publication. This innovation is significant as it addresses the complex physical challenges of transitioning from water to air, a feat that most diving birds achieve with the aid of their legs. The robot's flexible wings reduce drag and allow for a higher flapping frequency underwater compared to rigid wings. This design not only enhances its swimming efficiency but also aligns with biological observations of diving birds, providing insights into their locomotion strategies. Looking ahead, the research team is exploring optimal wing configurations and has tested various sizes and stiffnesses. Future experiments will focus on the robot's ability to transition from water to air solely through wing flapping, a critical milestone that could reveal more about the mechanics of avian flight and inspire advancements in robotic design. No further timeline was disclosed at the time of publication.

Flapping Robots Aerial Robotics Aquatic Robotics Bio-inspired Engineering
1X Launches Neo Robotic Hand Featuring 25 Degrees of Freedom and Force Transparency

1X Launches Neo Robotic Hand Featuring 25 Degrees of Freedom and Force Transparency

On July 9, 2026, 1X, a unicorn supported by OpenAI, unveiled the Neo robotic hand designed for humanoid robots. This advanced hand boasts 25 degrees of freedom, enabling it to perform a wide range of human-like tasks, such as delicately picking grapes without crushing them and lifting weights up to 20 pounds. The innovative design incorporates a tendon-driven system that enhances dexterity and responsiveness. The significance of the Neo robotic hand lies in its unique 'Force Transparency' technology, which allows for bidirectional communication between the hand and its environment. Unlike traditional robotic hands that operate with high gear ratios, the Neo hand utilizes a low gear ratio of approximately 5:1 to 15:1, enabling it to provide real-time feedback on applied forces. This design not only enhances the hand's functionality but also improves the training of AI models by providing rich physical interaction data. Looking ahead, while the Neo hand addresses fundamental perception challenges, real-world complexities remain a concern. The hand must operate effectively in various domestic environments, where it may encounter grease, sauces, or dust. Ensuring safety during interactions with children and maintaining functionality in challenging conditions will be critical for the widespread adoption of this technology. No further timeline was disclosed at the time of publication.

Robotic Hands Humanoid Robots AI Tactile Sensors Robotics Technology
Momenta Launches on Hong Kong Stock Exchange with Strong Market Reception

Momenta Launches on Hong Kong Stock Exchange with Strong Market Reception

On July 8, Momenta officially debuted on the Hong Kong Stock Exchange with an initial price of HKD 295.6, rising over 6% on opening day and achieving a market capitalization exceeding HKD 70 billion. The public offering was oversubscribed by approximately 414 times, leading to its designation as the 'first stock of physical AI.' This label has been previously claimed by other companies, indicating a competitive market for the 'physical AI' concept. Momenta's significance lies in its dual approach to autonomous driving, focusing on both L2++ driver assistance and Robotaxi services. As of April 2026, the company reported a 65% market share in the third-party city NOA supplier market. With over 1 million vehicles equipped with Momenta systems and partnerships with nine of the world's top ten automakers, the company demonstrates strong growth potential, with revenue projected to increase from CNY 743 million in 2023 to CNY 2.413 billion by 2025. Looking ahead, Momenta's transition from being labeled a 'city NOA supplier' to the 'first stock of physical AI' could significantly impact its valuation. However, the market will ultimately focus on its financial performance and the practical application of its technologies. No further timeline was disclosed at the time of publication regarding future developments or milestones for the company.

Autonomous Driving Physical AI Market Valuation Technology Startups
Humanoid Robot H1 Completes First Live Gallbladder Surgery Under Surgeon Control

Humanoid Robot H1 Completes First Live Gallbladder Surgery Under Surgeon Control

In July 2026, a humanoid robot successfully performed the world's first live gallbladder surgery on a pig under the control of a surgeon. This groundbreaking procedure, documented by Nature and featured on the front page of the New York Post, has sparked significant discussions in the tech community about the implications of humanoid robots in surgical settings, particularly regarding remote control and AI capabilities. The significance of this achievement lies in its potential to disrupt the surgical robotics market, which has been dominated by the Da Vinci surgical system for nearly two decades. The Da Vinci system, known for its high costs exceeding $2 million, relies on specialized robotic arms and instruments. In contrast, the humanoid robot's design allows it to utilize standard surgical tools, which could lead to reduced costs and increased accessibility for hospitals. Looking ahead, the successful completion of this surgery marks a pivotal moment for humanoid robots in healthcare. While regulatory hurdles and clinical validation processes remain, the experiment demonstrates that humanoid robots can perform complex surgical tasks. The next challenge will be determining when the costs associated with these robots can be lowered enough for broader adoption by hospitals beyond top-tier institutions. No further timeline was disclosed at the time of publication.

Humanoid Robots Surgical Robotics AI in Healthcare Remote Surgery
Path Robotics Enhances Welding Efficiency with AI and Boston Dynamics Robots

Path Robotics Enhances Welding Efficiency with AI and Boston Dynamics Robots

In a recent episode of The Robot Report Podcast, Andy Lonsberry, co-founder and CEO of Path Robotics, detailed the company's innovative approach to robotic welding. Based in Columbus, Ohio, Path Robotics utilizes AI to optimize the welding process by identifying torch paths and employing real-time vision guidance. This technology aims to streamline operations in manufacturing environments, addressing longstanding challenges in the industry. The significance of Path Robotics' advancements lies in their application of physical AI to enhance robotic systems. By integrating AI-driven solutions, the company is not only improving the efficiency of welding operations but also expanding the capabilities of robots in complex production settings. The deployment of Boston Dynamics' Spot robots for mobile welding applications in shipbuilding further exemplifies the potential of combining AI with robotics to tackle industry-specific challenges. Looking ahead, the focus will be on the continued integration of AI in robotic systems and the potential for further advancements in welding technology. No further timeline was disclosed at the time of publication, but the ongoing development in this area suggests a promising future for AI-enhanced manufacturing solutions.

Artificial Intelligence Assembly Cameras / Imaging / Vision Controllers Humanoids Manufacturing
AI² Robotics Secures $735 Million Funding for Wheeled Humanoid Robots Development

AI² Robotics Secures $735 Million Funding for Wheeled Humanoid Robots Development

AI² Robotics has successfully raised approximately $735 million in a recent funding round, elevating its valuation to around $2.8 billion. The Shenzhen-based company specializes in wheeled humanoid robots, which feature a humanoid torso and five-fingered hands, offering a unique alternative to traditional bipedal systems. This funding round attracted a diverse group of investors, including government-backed entities and major corporations, highlighting the growing importance of physical AI technology in China. The strategic choice to develop wheeled robots instead of bipedal models allows AI² Robotics to focus on mechanical simplicity and durability, making their robots more cost-effective and easier to deploy in public spaces. With over 34 degrees of freedom and a custom lifting mechanism, the robots are designed for various industrial applications, including logistics, manufacturing, and retail. The company’s proprietary Alpha Brain software enhances the robots' capabilities in real-time spatial reasoning and task planning, positioning them as practical solutions in structured environments. Looking ahead, AI² Robotics aims to further penetrate industrial markets while steering clear of the consumer robotics hype. The company is actively deploying its AlphaBot 2 in practical settings, emphasizing its utility in sectors such as biotech and public service. No further timeline was disclosed at the time of publication regarding future funding or product releases.

Artificial Intelligence / Cognition China Financial Humanoids Investments News
University of Utah Develops Fast Holographic 3D Printing for Seamless Microstructures

University of Utah Develops Fast Holographic 3D Printing for Seamless Microstructures

Researchers at the University of Utah have introduced a novel 3D printing technique that creates solid microstructures in approximately 20 seconds using a single laser exposure. This method eliminates the weak seams typical of traditional layer-by-layer printing, enhancing the strength and reliability of microscale devices. The innovative process employs a nanoscale mask to reshape laser light into a holographic pattern, allowing for the simultaneous hardening of the printing material, which significantly reduces manufacturing time compared to existing laser-based techniques. The significance of this development lies in its potential applications in microfluidic devices and advanced manufacturing. By curing entire structures in one exposure, the new method addresses the common issue of microscopic seams that can compromise the integrity of printed parts. The researchers demonstrated the ability to produce multiple parts continuously, akin to a conveyor-belt process, which could revolutionize the production of complex microscale components. Looking ahead, the research team aims to extend this technology to achieve true three-dimensional printing while maintaining the speed and accuracy of the current method. No further timeline was disclosed at the time of publication, but the implications for industries requiring precise microscale channels are substantial, suggesting a promising future for this innovative approach.

Innovation
SK Hynix Plans $1.4 Billion IPO in the US with Major Underwriters

SK Hynix Plans $1.4 Billion IPO in the US with Major Underwriters

SK Hynix, a South Korean semiconductor giant valued over $1 trillion, is set to launch its IPO on the Nasdaq, with expectations to be among the largest in history. Investment banks involved, including Goldman Sachs and Citigroup, anticipate a total commission pool exceeding $140 million, derived from a base underwriting fee and performance bonuses. This IPO is significant as it reflects the growing demand for semiconductor technology amidst a global supply chain recovery. The substantial commission indicates strong interest from investment banks, highlighting the competitive landscape in the semiconductor sector, which is crucial for various industries including automotive and consumer electronics. Looking ahead, the IPO is expected to attract considerable attention from investors, with no further timeline disclosed at the time of publication. The success of this offering could set a precedent for future tech IPOs and influence market dynamics in the semiconductor industry.

FORT Robotics Enhances AI Safety with Nvidia Halos at Automate Conference

FORT Robotics Enhances AI Safety with Nvidia Halos at Automate Conference

FORT Robotics has joined the Nvidia Halos for Robotics ecosystem to enhance safety for autonomous robots. The company will showcase its agentic safety application, developed using the Nvidia Halos Outside-In Safety Blueprint, at the Automate conference in Chicago. This innovative solution utilizes external infrastructure sensors and visual AI agents to provide real-time, safety-certifiable functional safety, significantly improving operational efficiency in dynamic environments. The collaboration is significant as it addresses the limitations of traditional inside-out functional safety systems, which rely solely on onboard sensors. By integrating Nvidia's IGX Thor and Holoscan Sensor Bridge, FORT's solution allows robots to operate safely alongside human workers in high-efficiency modes. This adaptability is crucial for modern warehouses and factories, where environments are constantly changing, and safety frameworks must evolve to protect workers effectively. Looking ahead, FORT's integration with Nvidia Halos is expected to provide substantial value to customers in warehousing, manufacturing, and other automated sectors. The Outside-In Safety framework aims to prevent safety incidents in mixed human-robot environments, optimizing processes like inventory replenishment and product assembly. No further timeline was disclosed at the time of publication.

Artificial Intelligence Industry ai automation Autonomous robots fort robotics
Fieldwork Robotics Receives £2.5 Million Investment for Berry Harvesting Automation

Fieldwork Robotics Receives £2.5 Million Investment for Berry Harvesting Automation

Fieldwork Robotics has secured a £2.5 million investment from SEED Innovations to enhance its selective and modular berry harvesting robots. This funding is part of a Seed+ fundraising initiative announced in April 2026, aimed at addressing labor shortages and rising costs in berry production. The investment will facilitate the transition from technology validation to commercial trials, with production robots already deployed in a two-year program in Norfolk and Stafford. The significance of this investment lies in its potential to alleviate pressing challenges faced by berry growers, including labor shortages and increased harvesting costs. By utilizing autonomous harvesting robots, Fieldwork aims to boost productivity and reduce reliance on seasonal labor, thereby minimizing food waste and stabilizing consumer prices. Jim Mellon, chairman of SEED Innovations, emphasizes the opportunity for robotics and AI to tackle real-world agricultural issues, aligning with Fieldwork's mission to enhance farm efficiency. Looking ahead, Fieldwork Robotics anticipates operating multi-robot fleets on farms by 2027, contingent on the success of ongoing trials. Additionally, the company plans to expand its operations internationally, with trials set to take place in Australia as part of its global growth strategy. No further timeline was disclosed at the time of publication.

Agriculture Financials & Investments agri robotics agricultural robotics agriculture automation
Robot Programming Languages 2026: From G-Code & FANUC KAREL to ROS2 — Complete History & Industrial Guide

Robot Programming Languages 2026: From G-Code & FANUC KAREL to ROS2 — Complete History & Industrial Guide

A comprehensive guide to industrial robot programming language evolution: G-code and NC origins, FANUC KAREL/TP, ABB RAPID, KUKA KRL, Yaskawa INFORM, the ROS open-source revolution, ROS2 architecture, ROS-Industrial consortium, OPC-UA, TSN, and real-time Linux — how six decades of software history define today's factory floor.

The Core Components Battle of Indutrial Robot,  Reducers, Servo Systems & Controllers

The Core Components Battle of Indutrial Robot, Reducers, Servo Systems & Controllers

A technology-first analysis of the three pillars driving industrial robot capability: precision reducers, servo systems, and motion controllers. Maps the full global supplier ecosystem — Japan, Europe, and China — from component specs to product generations and integration architectures.

GLOBAL ROBOTICS INDUSTRY Comprehensive Sector Overview

GLOBAL ROBOTICS INDUSTRY Comprehensive Sector Overview

A comprehensive global robotics industry overview for 2025, analyzing 14 key market segments — from industrial and humanoid robots to logistics AMRs, military systems, and service robots — with expert market sizing, US case studies, five-year forecasts, and bilingual English-Chinese analysis for executives and investors.

FUTURE WARFARE | Air - Collaborative Combat Aircraft, Drone Motherships & the Autonomy Race Above the Battlefield

FUTURE WARFARE | Air - Collaborative Combat Aircraft, Drone Motherships & the Autonomy Race Above the Battlefield

Anduril’s YFQ-44A Fury flew its first semi-autonomous mission on 31 October 2025 — 556 days from contract to flight. By February 2026 it was carrying live missiles and swapping autonomy software mid-flight. China’s Jiutian drone mothership flew on 11 December 2025, capable of releasing over 100 loitering munitions from its internal bay at 15,000 metres. And the U.S. Air Force is standing up its second experimental one-way attack drone unit for mid-2026. This article maps the most consequential aerial autonomous systems competition in history: the CCA programme that will determine U.S. air dominance in the 2030s, the Valkyrie’s surprising rebirth, the A-GRA open-architecture breakthrough, and the Chinese drone mothership that has no Western equivalent.