-
Website: https://andela-tni.nl
-
Email: [email protected]
-
Phone: +31 (0)6-12953587
Autonomous robotic weeder (ARW-912); 6-12 adjustable mechanical/thermal weeding units, 12 cameras + AI weed detection, 9m working width, self-propelled, targeted intra-row weed control in row crops, herbicide-free.
RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.
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.
leaderobot.com 1 hour ago Agricultural Robotics AI Technology Fruit Harvesting Embodied IntelligenceRollon, a leader in linear motion systems, has introduced the HVC-MG and H1C-MG integrated magnetic telescopic rails. These rails, designed for high-load applications, incorporate magnets into the rail structure to improve control and reduce effort during maintenance tasks. The new technology was unveiled this week and aims to enhance the efficiency and safety of railway maintenance operations by allowing engineers to easily pull out heavy battery compartments weighing hundreds of kilograms. The significance of this innovation lies in its ability to provide a seamless operation under heavy loads, addressing the challenges faced by maintenance personnel in the railway sector. The integrated magnets facilitate a sequential opening of the rail components, which minimizes simultaneous stress and enhances load distribution. This results in smoother operation, reduced manual effort, and extended rail lifespan, making it particularly suitable for the demanding environments of high-speed rail and subway systems. Looking ahead, Rollon plans to expand its magnetic control sequential motion technology across more product lines. The HVC and H1C series rails offer full extension and super extension options, maximizing accessibility while minimizing space usage. No further timeline was disclosed at the time of publication for additional product releases or enhancements.
leaderobot.com 1 hour ago Railway Maintenance Linear Motion Systems Heavy Equipment Automation TechnologyOn July 8, ABB Robotics launched the Flexley Stack F712, an AI-driven autonomous forklift utilizing visual SLAM technology. This product completes ABB's lineup of autonomous mobile robots (AMRs), which now includes forklifts, tuggers, and transport vehicles. The F712 can handle various load types, with a maximum capacity of 2000 kg and a lifting height of 8.5 meters, achieving a top speed of 1.7 meters per second under full load. The significance of the F712 lies in its advanced navigation capabilities, which eliminate the need for traditional infrastructure like reflective markers or magnetic strips. With a positioning accuracy of ±10 mm, the F712 can autonomously navigate complex warehouse environments. It integrates seamlessly with the AMR Studio software, allowing for rapid deployment and fleet coordination, reducing debugging time by 20% compared to traditional systems. Looking ahead, the F712 is designed to support various internal logistics tasks, including warehousing and production line operations, and is compliant with the latest ISO and ANSI safety standards. No further timeline was disclosed at the time of publication, but the F712 represents a significant step towards more autonomous and capable robotic solutions in smart manufacturing environments.
leaderobot.com 1 hour ago Autonomous Forklifts AI Robotics Warehouse Automation Visual SLAM Logistics TechnologyWisson has launched the Flexible Charge automatic charging service engine, which features zero-second adaptive tolerance. This innovative solution is designed to support public, dedicated, and home electric vehicle (EV) charging, accommodating over 130 different vehicle models. The introduction of this technology marks a significant advancement in EV charging capabilities. The significance of the Flexible Charge engine lies in its ability to provide seamless and efficient charging solutions for a wide range of electric vehicles. By offering zero-lag adaptive charging, Wisson aims to enhance user experience and convenience, addressing a critical need in the growing EV market. This development is expected to contribute to the broader adoption of electric vehicles by reducing charging downtime. Looking ahead, Wisson's next steps in the rollout of the Flexible Charge engine remain to be seen. No further timeline was disclosed at the time of publication, but the company is likely to focus on expanding its market presence and partnerships to maximize the deployment of this technology across various charging infrastructures.
PanDaily.com 1 hour ago TechnologyDJI has launched the EV50, its inaugural vertical takeoff and landing (VTOL) fixed-wing cargo drone, designed for long-range transport. The drone achieved a remarkable operating altitude of 8,861 meters during a scientific expedition on Mount Everest, surpassing the mountain's peak by 12 meters. Over a 12-day period, the EV50 completed 32 flights, including 12 missions focused on atmospheric monitoring, taking off from Everest Base Camp at 5,200 meters. The significance of the EV50 lies in its ability to facilitate continuous atmospheric observation above 8,000 meters, a feat previously hindered by the limitations of manned expeditions and other aircraft. The drone's all-electric propulsion system allows researchers to gather crucial data on glacier winds and atmospheric conditions, contributing to climate change studies. With a maximum payload of 50 kilograms and a range of 150 kilometers, the EV50 is equipped with advanced features such as dual thermal management systems and an emergency parachute. Looking ahead, the EV50 is expected to be utilized in various applications, including emergency response and logistics in remote areas. No further timeline was disclosed at the time of publication regarding its commercial deployment. This launch marks a significant expansion of DJI's industrial drone offerings, particularly for challenging environments like high-altitude regions.
TechNode.com 6 hours ago On the Cusp Content and entertainment E-commerce and New Retail Highlight NewsAsylon has secured a Phase Three contract with the U.S. Air Force's Warner Robins Air Logistics Complex to deploy its Multi-modal Autonomous Robotics for Inspection of Aircraft (MARIA) system. This initiative aims to streamline aircraft inspections by integrating air and ground robotic platforms, significantly reducing the time for general visual inspections while enhancing consistency in maintenance tasks. The MARIA system combines Asylon's Guardian unmanned aircraft with the DroneDog Q-UGV, utilizing the Range autonomy software and DroneIQ command-and-control system for efficient inspection management. The significance of this deployment lies in its potential to transform aircraft maintenance operations. By automating inspections, the MARIA system not only improves inspection quality but also mitigates the risks associated with labor-intensive tasks. The integration of imagery, LiDAR data, and telemetry into a single platform allows maintenance personnel to make informed decisions quickly, thereby enhancing aircraft readiness without increasing manpower demands. This project marks a pivotal shift in how the Air Force approaches maintenance, leveraging autonomous technologies to optimize operational efficiency. Looking ahead, the success of the MARIA deployment at Warner Robins could lead to broader adoption of these technologies across military maintenance organizations. No further timeline was disclosed at the time of publication, but the ongoing collaboration between Asylon and the Air Force may pave the way for future advancements in defense sustainment operations, particularly in the realm of autonomous inspections and maintenance support.
InterestingEngineering.com 6 hours ago MilitaryOn July 9, Wanxun Technology unveiled its 'Flexible Charging' universal charging service engine in Beijing, marking the industry's first comprehensive solution for public, dedicated, and home charging applications. This engine features a unique 0.000s tolerance technology, which addresses the core challenges of automatic charging in chaotic environments, enabling reliable and scalable commercial applications across various scenarios. The significance of this launch lies in its potential to overcome the limitations of existing automatic charging solutions, which often struggle with unpredictable variables such as diverse vehicle models, environmental conditions, and user behaviors. Wanxun's technology promises to enhance safety, reliability, and adaptability, making it suitable for a wide range of charging situations, from public stations to private homes. Looking ahead, Wanxun Technology aims to expand its automatic charging solutions across various sectors, including unmanned logistics and public transportation. The company has already initiated collaborations with manufacturers, operators, and government entities to accelerate the deployment of its solutions. No further timeline was disclosed at the time of publication.
36kr.com 6 hours agoAt the recent Automate Show, Bloomberg Opinion columnist Thomas Black observed a significant presence of robots but noted that the technology has not yet reached a stage of widespread everyday use. This event showcased various robotic innovations, yet the consensus was that substantial advancements are still required for mainstream adoption. The observations made at the Automate Show underscore the gap between current robotic capabilities and market expectations. Despite the proliferation of robotic technologies, challenges such as integration, cost, and user acceptance continue to hinder their deployment in everyday applications. This situation reflects a broader trend in the robotics industry, where enthusiasm often outpaces practical implementation. Looking ahead, industry stakeholders will need to focus on overcoming these barriers to realize the full potential of robotics. No further timeline was disclosed at the time of publication regarding specific advancements or initiatives aimed at accelerating adoption in various sectors.
BloombergTechnology 12 hours agoAsylon has been awarded a Phase Three contract by the Warner Robins Air Logistics Complex (WR-ALC) to advance its Multi-modal Autonomous Robotics for Inspection of Aircraft (MARIA) system. This contract focuses on further development, integration, and demonstration of the MARIA technology at the WR-ALC facility, enhancing aircraft inspection processes. The significance of this contract lies in the increasing demand for automation in aircraft maintenance and inspection. Asylon's MARIA system aims to improve efficiency and accuracy in inspections, which is crucial for maintaining operational readiness in military and commercial aviation sectors. The integration of autonomous robotics is expected to streamline workflows and reduce human error. Looking ahead, stakeholders will be monitoring the progress of the MARIA system's development and its subsequent demonstration at WR-ALC. No further timeline was disclosed at the time of publication, but successful implementation could set a precedent for similar technologies in the aerospace industry.
Airforce-Technology 12 hours ago NewsDrone Amplified, a Nebraska-based company, announced on July 8, 2026, that it has received regulatory approval from the Federal Aviation Administration (FAA) for its MONTIS drone, designed for avalanche control operations. This approval establishes a legal framework for the commercial deployment of the remote avalanche mitigation system across the United States, enhancing safety measures in avalanche-prone areas. The FAA's endorsement is significant as it allows Drone Amplified to offer its innovative technology to U.S. customers, potentially transforming avalanche management practices. The MONTIS drone is expected to improve response times and operational efficiency in avalanche control, addressing a critical need in mountainous regions where avalanches pose serious risks to safety and infrastructure. Looking ahead, the company aims to expand its market presence and operational capabilities following this regulatory milestone. No further timeline was disclosed at the time of publication, but stakeholders will be keen to see how quickly Drone Amplified can roll out its services and establish partnerships in the avalanche control sector.
Dronelife.com 12 hours ago Disaster Response dispatch Drone News Drone News Feeds Drones in the News Environmental Research
Leave a comment