Sentek Solutions

UK-based sole authorized European distributor of Hokuyo LiDAR sensors and related optical/electronic devices. Offers short-range to 200 m multi-layer 3D LiDAR products for industrial automation, robotics navigation, and semiconductor applications.

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Sentek Solutions
Unit 32, St John's Business Park
Lutterworth LE17 4HB
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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
Chinese Heavy-Lift Drones Airlift Flood Victims in Guangxi Amid Safety Protocols

Chinese Heavy-Lift Drones Airlift Flood Victims in Guangxi Amid Safety Protocols

In Guangxi, China, heavy-lift drones have been deployed to rescue flood victims by airlifting individuals, defying standard safety protocols. This operation highlights the capabilities of the trillion-yuan low-altitude economy, which is becoming increasingly significant in emergency response scenarios. The use of these drones marks a pivotal moment in the integration of aerial technology into disaster management, showcasing their potential to save lives in critical situations. The significance of this operation lies in its demonstration of the industrial capacity within China's low-altitude economy, which is estimated to be worth trillions of yuan. By utilizing drones for rescue missions, authorities are not only addressing immediate humanitarian needs but also paving the way for future applications of drone technology in various sectors. This incident underscores the evolving landscape of aerial logistics and emergency response, emphasizing the need for updated safety regulations to accommodate such innovations. Looking ahead, the continued use of heavy-lift drones in rescue operations may lead to further advancements in drone technology and regulatory frameworks. No further timeline was disclosed at the time of publication, but the success of these missions could prompt increased investment and development in the low-altitude economy, potentially transforming how emergency services operate in the future.

Technology
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
Ant Group Launches LingBot-VA 2.0 with Advanced Spatial Awareness and Vision Models

Ant Group Launches LingBot-VA 2.0 with Advanced Spatial Awareness and Vision Models

On July 10, Ant Group introduced LingBot-VA 2.0, the first embodied native action model in the industry. This release marks the culmination of their full-stack 2.0 model series, featuring advancements in spatial perception and real-time interaction. The launch has generated significant buzz across international platforms like Reddit and Hugging Face, indicating a strong interest in their technology. The significance of LingBot-VA 2.0 lies in its comprehensive technology stack, which includes LingBot-Depth 2.0 and LingBot-Vision. LingBot-Depth 2.0 enhances depth perception with a training dataset expanded from 3 million to 150 million, achieving top scores in 12 out of 16 benchmarks. Meanwhile, LingBot-Vision introduces a novel pre-training target, improving depth estimation accuracy despite using a smaller dataset compared to competitors. Looking ahead, the next steps for Ant Group involve further collaboration with industry partners, as LingBot-Depth 2.0 has already received professional certification from Orbbec. The company is also focusing on integrating their models into the industry, with no further timeline disclosed at the time of publication for upcoming releases or partnerships.

Robotics AI Machine Learning Computer Vision
HeShan Technology Raises Hundreds of Millions in Series B Funding Amid Fourfold Order Growth

HeShan Technology Raises Hundreds of Millions in Series B Funding Amid Fourfold Order Growth

HeShan Technology, based in Beijing, has successfully completed a Series B funding round, raising hundreds of millions of yuan. The investment comes from a mix of industrial capital and specialized investment firms, including TaiPing Innovation and Junsheng Electronics. This funding marks the third financial boost for the company in six months, with plans for a Series C round already underway. HeShan reported that its total orders in the first half of the year reached four times that of the previous year, with monthly deliveries of tactile sensors stabilizing at tens of thousands. The significance of this funding round lies in the clear investment trends within the robotics sector. Investors like Junsheng Electronics and AUX are focusing on practical technologies that can integrate with existing production lines, moving away from speculative concepts. HeShan has established a comprehensive stack covering chips, sensors, and data simulation, addressing the growing demand for tactile perception in smart healthcare devices, especially as the aging population increases in China. Looking ahead, HeShan Technology's next milestone will be the advancement of its Series C funding efforts. The company is poised to leverage its tactile technology to enhance safety in elderly care scenarios, collaborating with industry partners. No further timeline was disclosed at the time of publication, but the strong order volume and delivery capabilities position HeShan as a leader in the tactile robotics market, addressing the industry's need for mature, scalable solutions.

Tactile Sensors Robotics Industrial Automation AI Technology
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
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
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
XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO Mobility has unveiled the X12 all-terrain mobility robot, priced at $27,999, designed to assist wheelchair users in overcoming stairs and other obstacles. Weighing approximately 115 kg and capable of carrying up to 136 kg, the X12 features a hybrid wheel-track chassis that allows it to navigate stairs autonomously, with a climbing speed of 25 steps per minute and descending speed of 30 steps per minute. The robot utilizes LiDAR and AI algorithms for real-time terrain perception, enabling it to adjust its driving mode and power output dynamically. The introduction of the X12 is significant as it addresses mobility challenges faced by individuals with disabilities, particularly in environments lacking accessibility features. With the ability to climb slopes of up to 40 degrees and traverse gaps of 300 mm, the X12 offers a solution that goes beyond traditional mobility aids. XSTO Mobility, based in Zhongshan, Guangdong, has been developing embodied mobile robots for over a decade, and the X12 represents a substantial advancement in this field, emphasizing user independence and safety. Looking ahead, XSTO Mobility has reported that orders for the X12 are already booked until April 2026, indicating strong market demand. The robot is currently available in over 70 countries, and its innovative design has garnered multiple awards. No further timeline was disclosed at the time of publication regarding additional product releases or enhancements.

Mobility Robots Assistive Technology AI Healthcare Innovation
ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics has successfully completed the world's first fully robotic cataract surgery using its JASPER platform, led by Dr. Alexey Rapoport in April 2026. This groundbreaking procedure was performed at the Asian Eye Institute in the Philippines, showcasing JASPER's ability to execute the entire surgery autonomously without general anesthesia, adhering to modern cataract surgery standards. The significance of this achievement lies in JASPER's unique design, which empowers surgeons rather than replacing them. By integrating AI algorithms, advanced computer vision, and miniature mechanical technology, JASPER provides enhanced imaging and precision control, allowing surgeons to perform with the accuracy of elite professionals. This innovation also addresses ergonomic concerns, as it enables surgeons to operate seated, potentially extending their careers and improving surgical outcomes. Looking ahead, ForSight Robotics aims to secure FDA approval for JASPER in the United States, with plans to bring this technology to market in the coming years. The company has raised $195 million since its founding in 2020, with significant investments from notable figures and organizations. No further timeline was disclosed at the time of publication.

Robotic Surgery Cataract Surgery AI in Healthcare Ophthalmology Medical Robotics