Major Categories:
5
Subcategories:
16
Total Number:
200
A medical robotics resource consolidation platform.
Medical devices that enhance surgical precision and flexibility and reduce risks associated with traditional surgeries
Intelligent devices designed to assist patients in functional recovery training
Devices that enhance the efficiency and accuracy of biopsies and ultrasound diagnostics
Devices that improve patient monitoring and real-time management capabilities
Intelligent mobile robots that semi-autonomous or autonomous services to healthcare personnel or patients
America
Zeus is divided into a Surgeon-side system and a Patient-side system. the Surgeon-side system consists of a pair of master hands and monitors that allow the physician to sit and control the master handles and view the patient's internal condition as captured by the endoscope through a monitor on the console. the Patient-side consists of two robotic arms for positioning and one robotic arm to control the position of the endoscope. Patient-side consists of two robotic arms for positioning and one robotic arm for controlling the position of the endoscope. The surgeon can vocally control the arm that operates the laparoscope, while operating the other two robotic arms by hand to perform the procedure.
Japan
The overall design of Hinotori is similar to that of the da Vinci robot in that it consists of a surgeon's console and a bedside robotic arm system, both of which have a table-top, four-arm configuration. It has an eight-axis robotic arm with smooth motion that reduces interference between or among the arms for smoother surgeries, as well as a full HD 3D system that provides high-definition images to make surgeries more precise
Britain
The Versius surgical robot is an advanced robotic surgical system developed by CMR Surgical to improve surgical dexterity and precision. Featuring a modular design that allows it to adapt to a variety of surgical environments and needs, as well as being easy to operate in-house, the Versius robot provides surgeons with a larger field of view and finer control of their operations, resulting in an improved patient recovery and surgical experience
America
The Senhance Surgical Robot is an advanced robotic-assisted surgical system developed by the American company Asensus Surgical. It combines intuitive haptic feedback and high-definition 3D imaging designed to improve surgical precision and safety. Senhance also supports telesurgery and data-driven medical practices, providing surgeons with greater flexibility and control
Germany
The Avatera Robot-Assisted Minimally Invasive Surgery System received European CE Mark approval covering all components of the system. The system utilizes disposable instruments, reducing the risk of contamination, while claiming to provide a high degree of dexterity and comfort during the procedure. Avatera robots are also compliant with European data protection standards, designed to keep sensitive patient and clinic data safe
Korea
The Revo-I Surgical Platform is a highly integrated robotic-assisted surgical system designed to improve surgical dexterity and precision. The platform uses innovative technology to support a wide range of minimally invasive procedures and optimize the surgeon's experience
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America
The da Vinci SP is a "single port" device with only one arm. A camera and three operating forceps are inserted into the body cavity for surgery through a 2.5 cm diameter cannula attached to the arm. It is designed for minimally invasive surgery and can be operated through a small incision. The platform has a flexible surgical mechanism that provides the precise control and field of view needed by the surgeon to improve the patient's post-operative recovery experience
Germany
The DLR MiroSurge is a multi-arm robotic surgical platform designed to support complex minimally invasive surgical operations. The system's modular design enables flexible configuration of different surgical tools to adapt to a wide range of surgical needs. MiroSurge is equipped with high-precision motion control and advanced audio-visual technology to enhance the surgeon's operating experience and intraoperative visualization
Singapore
Endomaster is a master-slave endoscopic robot with two micro-arms with high degrees of freedom. The two arms are like crab pincers with a high degree of flexibility, enabling them to extend and retract freely within the digestive system. It also reduces trauma, minimizes scarring, shortens procedures and healing times, and reduces the risk of complications
America
The Levita™ Magnetic Surgical System is an innovative surgical platform that utilizes magnetic technology to assist in surgical procedures, enhancing flexibility and precision. The system's unique design allows surgeons to move freely while performing minimally invasive procedures while maintaining precise control of surgical tools. The Levita system provides superior visualization to help surgeons achieve greater safety and efficiency during complex procedures
Britain
The i2 Snake robotic platform is a flexible endoscopic surgical robot designed to improve the precision and effectiveness of minimally invasive surgery. The platform's serpentine design allows it to move flexibly in tight spaces, providing excellent operational control and visualization. i2 Snake platform supports a wide range of surgical applications, including gastrointestinal and thoracic surgeries, thereby reducing patient trauma and post-operative recovery time
Japan
The Olympus EndoSamurai is an advanced robotic-assisted surgical system designed for endoscopic surgery and designed to enhance precision and dexterity. The system has a modular architecture that supports the integration of multiple endoscopic tools to adapt to different surgical needs. EndoSamurai helps surgeons perform more efficiently during complex procedures with the help of high-precision motion control and enhanced visualization technology
America
The USGI Medical TransPort Multi-Lumen Operating Platform is an innovative endoscopic surgical platform designed to support multiple operations while providing efficient surgical solutions. The system features multiple operating channels, allowing surgeons to perform multiple surgical operations in a single insertion, thereby reducing patient trauma and recovery time. The TransPort platform also integrates advanced visualization technology, improving the surgeon's field of view and control during the procedure
America
The Boston Scientific Direct Drive Endoscopic System is an advanced endoscopic surgical platform designed to provide surgeons with greater operational precision and flexibility. With direct drive technology, the system improves instrument responsiveness and control, helping surgeons perform complex endoscopic procedures more smoothly. the Direct Drive system is designed with a focus on the user experience and enhanced visualization, helping to improve surgical outcomes and the patient's recovery experience
Canada
The SPORT Surgical System is an innovative robotic-assisted surgical platform designed for minimally invasive surgeries and designed to improve surgical dexterity and accuracy. The system employs a unique surgical approach that allows surgeons to perform complex procedures through small incisions while reducing patient recovery time. The SPORT System is equipped with advanced camera and control technology that enhances visualization and allows surgeons to better perform surgical operations
America
The FreeHand Robotic Camera Controller controls the camera through the surgeon's hand movements, providing seamless frame following and allowing the surgeon to focus on the surgical operation without having to rely on an assistant to adjust the camera's viewpoint. The FreeHand is designed to increase the safety and efficiency of surgical procedures and improve patient outcomes
France
With its modular and flexible design, the Avicenna Roboflex adapts to a wide range of surgical needs and supports surgeons in a variety of complex procedures. The Avicenna Roboflex's high-precision control and visualization technology is designed to improve surgical outcomes and the patient's recovery experience
Germany
The Flex Robotic System utilizes advanced robotic technology that allows surgeons to operate through multiple degrees of freedom, improving control and visualization during complex surgeries. The unique design of the Flex System allows it to be adapted to a wide range of surgical applications, improving overall surgical efficiency and the patient recovery experience
Switzerland
With a unique modular structure that allows the surgeon to utilize a number of different surgical tools to accommodate a wide range of surgical needs, the MicroHand S combines highly sensitive motion control with advanced imaging technology to enable precise surgical procedures to be performed in tight operating spaces
Palestine
Mazor Renaissance combines advanced navigation and imaging technologies to support surgeons with precise implantation and maneuvering during complex procedures. Mazor Renaissance is designed to reduce operative time and improve patient recovery
Palestine
Mazor X uses intelligent navigation and real-time imaging technology to assist surgeons with precise implantation and surgical maneuvers, reducing surgical risk. Mazor X's user-friendly interface and flexibility improves surgical efficiency and shortens patient recovery time
France
The ROSA ONE Spine combines real-time navigation technology with intelligent imaging capabilities to help surgeons perform more accurate operations during complex spine surgeries. The ROSA ONE Spine supports an integrated workflow that provides real-time data and visual feedback to optimize surgeon decision-making during surgery
America
ExcelsiusGPS combines real-time 3D imaging and navigation technology to help surgeons perform more accurate implantation and manipulation during complex surgeries. ExcelsiusGPS' intuitive interface and intelligent assistance features enable surgeons to optimize their workflow and improve surgical efficiency
America
The da Vinci® Surgical System is an advanced robotic-assisted surgical platform designed for minimally invasive surgical procedures and designed to enhance surgical precision and dexterity. Featuring a high-precision robotic arm and high-definition 3D vision technology, the system enables surgeons to perform complex procedures in a confined operating space. da Vinci systems provide superior operational control, reduce patient trauma, and accelerate recovery time
Britain
Neuromate is an advanced robotic system designed for stereotactic neurosurgery that supports a wide range of neurosurgical operations, such as deep brain stimulation and brain tumor resection, and helps surgeons achieve precise positioning through a combination of high-precision motion control and imaging. Neuromate's user-friendly interface and customizable features enable surgeons to optimize the surgical process, improve patients' post-operative outcomes
America
With its unique robotic design, the Steady Hand Robot is able to control surgical tools in a stable manner, reducing mishandling due to shaky hands. The Steady Hand Robot combines real-time feedback and intelligent algorithms to provide surgeons with a safe and effective way to assist in surgery
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Palestine
The Mazor X Stealth Edition (MXSE) is an advanced robotic surgical system designed to improve the precision and safety of spine surgery. The platform combines 3D imaging technology and navigation capabilities, allowing surgeons to obtain more accurate information in real time during surgery. With this innovative technology, MXSE not only improves patient outcomes, but also reduces recovery time
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America
IRISS is a robotic system designed for ophthalmic surgery that intervenes in the eye through endoscopic technology, allowing surgeons to perform complex operations with less trauma to the patient. IRISS is equipped with high-precision control mechanisms and real-time imaging systems, allowing surgeons to achieve better vision and operational flexibility
America
Da Vinci Xi is an advanced robotic-assisted surgical system dedicated to minimally invasive surgery that utilizes a high-performance robotic arm and high-definition 3D vision technology to allow surgeons to perform complex operations in confined surgical spaces while providing improved field of view and control. Designed with a focus on user-friendliness, Da Vinci Xi supports a wide range of surgical applications such as urology, gynecology, and thoracic surgery, promoting safety and efficiency in surgery
America
TSolution One is a robotic-assisted surgical system designed specifically for knee surgery that provides advanced 3D imaging and navigation technology to enable surgeons to perform personalized surgical planning and precise joint replacement operations.The modular design of TSolution One allows it to be adapted to a wide range of surgical needs, improving the efficiency of the surgical process and the recovery rate of the patient
America
The NAVIO Surgical System is an advanced robotic-assisted surgical platform focused on knee replacement surgery that combines real-time navigation technology and surgical planning tools to allow surgeons to perform personalized joint replacement operations during surgery. NAVIO is designed to give surgeons the flexibility to operate without the control of a stationary robotic arm in order to meet the specific needs of different patients
America
Robodoc is an advanced robotic-assisted surgical system designed for orthopedic surgery, especially to provide precise positioning and tool control during joint replacement surgery. The system is based on computer-aided design (CAD) technology and is capable of providing surgeons with detailed pre-operative planning and high precision bone cutting during surgery
France
The EOS Imaging System focuses on medical imaging, particularly in orthopedics, to help physicians accurately assess bone and joint health by rapidly capturing standing or sitting images of patients with a low radiation dose. EOS Imaging technology allows for the collection and analysis of data to support surgical planning and the evaluation of treatment outcomes while providing patients with the opportunity to see a highly personalized treatment plan
Korea
CUVIS Joint is an advanced robotic-assisted surgical system specifically designed for joint replacement surgery that combines real-time imaging and navigation technology to support surgeons in personalized surgical planning to suit the needs of different patients. CUVIS Joint is designed to allow for greater flexibility in surgical operations and to improve the success rate of joint replacement and patient recovery. CUVIS Joint is an advanced robotic-assisted surgical system specifically designed for joint replacement surgery that combines real-time imaging and navigation technology to support surgeons in personalized surgical planning to suit the needs of different patients. CUVIS Joint is designed to allow for greater flexibility in surgical operations and to improve the success rate of joint replacement and patient recovery
America
The ROSA system is an advanced robotic-assisted surgical platform designed for knee surgery that combines real-time navigation and imaging technology to support surgeons in personalizing knee replacements during surgery. ROSA's flexibility and intelligence help surgeons optimize the surgical process, increase productivity and improve the patient's recovery experience
China
Remebot Neurosurgical Navigation and Positioning System is a high-precision minimally invasive surgical robot designed for neurosurgery, providing precise positioning and path planning support. Its system combines advanced robotics and AI algorithms to dramatically improve the efficiency and safety of surgery. The device is known for its intelligence and convenience, helping doctors achieve higher success rates in complex neurosurgical procedures
China
CAS-R-2 frameless stereotactic system is a high-precision medical device mainly used for positioning and navigation in neurosurgery. It adopts a frameless design and combines advanced image fusion technology and real-time navigation functions to improve the precision and safety of surgery. The system can help doctors realize minimally invasive operations in complex neurosurgery and reduce patients' recovery time
America
The Sensei Robotic System is a surgical assist robot for the medical field, specializing in cardiovascular interventional procedures, designed to improve the precision and safety of operations. Its system helps physicians operate catheters more efficiently in complex surgical environments through remote control and fine navigation technology. Sensei not only improves surgical efficiency, but also reduces radiation exposure and operator fatigue for physicians
China
The Mako Orthopedic Robotic Surgical System utilizes OpenWam's silk drive technology and related robotic configurations, with no grease lubrication for a cleaner and safer surgical process, and an unprecedentedly smooth drag process for the drive, which allows for more precise movement and facilitates the surgeon's ease in completing the surgery
America
The Sensei™ Robotic Catheterization System uses computerized catheter technology to provide stable and predictable control of catheter movement. Improving the surgeon's ability to access hard-to-reach anatomical structures, the surgeon can improve surgical stability through surgical practice
America
The Corindus CorPath 200 is a robot-assisted percutaneous coronary intervention (PCI) system designed to help physicians improve the safety and accuracy of procedures during cardiovascular interventions. The system augments physicians' capabilities through robotics, enabling them to remotely control catheters and other interventional devices
America
Mako SmartRobotics™ combines three key components: 3D CT-based planning, AccuStop™ haptic technology, and insightful data analytics all rolled into one to deliver better outcomes for your total knee, total hip, and partial knee patients
America
Flex® Robotics System, the world's first intracavity robotic platform with a maneuverable and formable robotic range. The Flex® Robotics System navigates complex anatomical structures through a single point of entry with clear 3D high-definition visualization. Once in contact with the target disease, the Flex® Robotic System provides a stable platform through which articulated flexible instruments can be introduced to provide consistent triangulation in hard-to-reach anatomical locations that may be inaccessible to traditional surgical instruments and difficult to treat with current endoscopic instruments
Netherlands
This is a robot that can perform surgery on the retina at the back of the eye. The surgeon uses a joystick to control the robot's moving arm. The surgeon can fix various instruments on the robot arm and since the machine's system is extremely stable, it is not affected by any slight tremors, greatly increasing the success rate of the surgery
Britain
Renishaw Neuromate is a robotic system for neurosurgery designed to improve the precision and safety of surgery. It is commonly used for brain surgery, including deep brain stimulation (DBS) and other neurosurgical procedures. Highly accurate positioning, a user-friendly interface, flexibility and repeatability are his hallmarks
Korea
REVO-I is an advanced surgical robotic system designed to improve the precision and efficiency of surgical procedures. It typically features sophisticated robotic arms that can perform complex surgical maneuvers and support a wide range of types of surgical procedures. The REVO-I system may also be equipped with high-definition cameras and augmented reality technology to provide a clearer view of the surgical procedure, allowing the surgeon to better visualize the surgical area
America
The NIOBE system allows physicians to perform cardiac surgery by operating a robotic arm in a safe and comfortable environment. This remote navigation technology reduces direct contact between the physician and the patient while increasing the precision and safety of the operation. The system is designed to improve the efficiency and effectiveness of interventional cardiac procedures, enabling physicians to better treat complex heart conditions
Netherlands
AMIGO is a service and care robot developed by Eindhoven University of Technology to support the elderly and people in need. The robot combines advanced artificial intelligence technology and human-robot interaction capabilities to perform a variety of tasks such as companionship, providing information and assisting in daily life. AMIGO is a service and care robot developed by Eindhoven University of Technology to support the elderly and people in need. The robot combines advanced artificial intelligence technology and human-robot interaction capabilities to perform a variety of tasks such as companionship, providing information and assisting in daily life
America
The Zeus Surgical Assisted Robotic System is an advanced surgical robotic system designed to provide greater precision and dexterity in surgical operations through robotics. The Zeus System is a breakthrough in enabling surgeons to perform minimally invasive surgeries with greater precision through a combination of tools and camera control. Such systems are often equipped with high-resolution cameras that allow the surgical area to be viewed in a magnified view, thereby improving the precision of the operator's operations
America
It is designed to support complex, minimally invasive surgeries by providing high-precision maneuvers and real-time video feedback to enable surgeons to perform procedures more efficiently. Compared to traditional surgical approaches, the Raven II enhances flexibility and control of the procedure, improving the patient's surgical experience and recovery time
Korea
The complete ROBODOC® Surgical System utilizes the tandem technology of CUREXO Technology Corporation's ORTHODOC® and ROBODOC® Surgical Assistant. ORTHODOC supports preoperative 3D planning, providing superior accuracy in component selection, placement, surface preparation and soft tissue management. At the same time, the ROBODOC® Surgical Assistant carries out preoperative planning with unparalleled precision
Ireland
Mazor Robotics technology achieves features such as: improved implant accuracy, potential reduction in fluoroscopy (56% reduction in this clinical case series), reduced complication rates, reoperations and postoperative opioids, and shorter average length of stay
America
The Senei X1 incorporates sophisticated navigation and localization features that enable surgeons to precisely locate and control catheters in complex anatomical structures, significantly improving the accuracy of operations. This system is commonly used for interventions in cardiovascular, neurovascular and other areas, providing patients with safer and more effective treatment options
America
The CorPath robotic system is a robot-assisted interventional system that is primarily used for cardiovascular interventional procedures. This system is designed to enhance the precision and safety of medical procedures, especially in complex procedures such as percutaneous coronary intervention (PCI).At its core, it provides fine control during teleoperation, enabling surgeons to accurately maneuver catheters, stents and other medical devices through the robotic arm. With a high-precision robotic arm, this system significantly reduces radiation exposure and intra-operative discomfort for surgeons dealing with high-risk surgical environments
France
The R-ONE vascular robotic system is designed with a global approach to meet the needs of interventional cardiology. It is perfectly integrated into the interventional program. R-One+™ is designed to provide the surgeon with reliable, precise assistance during the procedure and to enhance movement, thus creating better interventional conditions, especially complete freedom from X-rays
America
Zeus is a surgical robot developed by Intuitive Surgical to enhance the precision and safety of surgical procedures through robotic-assisted technology. The Zeus robotic system provides high-resolution 3D views, allowing surgeons to perform complex surgical procedures under remote control
America
The Magellan™ Robotic System uses state-of-the-art modern technology to relieve peripheral vasculature and is designed to deliver a distal tip simultaneously using a catheter and sheath. This is done from a centralized remote workstation. The Magellan system demonstrates its benefits by helping to minimize vascular trauma during the procedure compared to manual techniques. The system is conceptualized and designed in a way that will have a cutting-edge impact and automatically stabilize the tubing used to place and deliver medical devices. The result has been a revolutionary peripheral vascular intervention that benefits patients
America
The Niobe magnetic navigation system allows physicians to perform cardiac surgery by operating a robotic arm in a safe and comfortable environment. This remote navigation technology reduces direct contact between the physician and the patient while increasing the precision and safety of the operation. The system is designed to improve the efficiency and effectiveness of interventional cardiac procedures, enabling physicians to better treat complex heart conditions
China
MicroHand is a miniature surgical robot designed for fine surgical procedures. Features include a flexible robotic arm, a highly accurate control system and advanced image processing technology to perform minimally invasive operations in complex surgical environments. microHand excels in neurosurgery, otolaryngology, and other fine surgical fields with its compact size and efficient work style, designed to improve the safety and efficacy of surgical procedures, while minimizing the patient's recovery time
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Netherlands
Designed to improve force feedback and operational precision in surgical procedures. With integrated sensors and real-time feedback technology, the system provides surgeons with haptic information during minimally invasive procedures, enabling them to better sense applied forces and tissue response. This enhanced perception helps to improve the safety and effectiveness of surgery, especially in high-precision operations. SOFIE's goal is to boost surgeon confidence during complex procedures and improve patient outcomes
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China
MGIUS-R3, the remote ultrasound robot independently developed by UWI, is the world's first ultrasound device that realizes remote diagnosis of a patient by a professional doctor directly controlling the ultrasound probe remotely. Through the integration of robotics, real-time remote control and ultrasound imaging technologies, it breaks through the limitations of traditional ultrasound diagnosis and treatment, overcomes the time and space barriers, and improves the current situation of uneven distribution of medical resources, so that high-quality medical care is close at hand
America
The system allows healthcare professionals to perform real-time ultrasound examinations at various locations, often transmitting ultrasound images to specialists for interpretation via a network connection. Benefits include improved access to health care, especially in remote areas, and reduced time for patients to seek care, as well as improved diagnostic efficiency and accuracy through remote consultations
America
The Whitestar Signature Ultrasound Emulsification System is a state-of-the-art cataract surgery device that efficiently and safely removes cloudy lenses through ultrasound technology. This system is designed to increase the precision and speed of the procedure, while minimizing surgical damage to the eye and improving the patient's recovery experience
Iran
ViKY Urology is an advanced motorized endoscope positioner designed for urological procedures. It provides precise control of the endoscope's position and improves the stability and accuracy of the surgical field, thus enhancing surgical efficiency and safety.The device helps surgeons better perform complex urological procedures through its innovative technology
Spain
OTELO is a robotic system with integrated ultrasound imaging technology designed to improve precision and efficiency during surgery. The robot is equipped with ultrasound probes and other assistive devices that provide critical visual information in real time, thus helping surgeons perform more complex procedures. Through its innovative design and features, OTELO improves the safety and effectiveness of surgery, especially in areas requiring precise navigation and maneuvering
America
IREP is an interactive robotic system for exploration and production tasks. It combines advanced perception, navigation, and manipulation capabilities and is designed to perform complex environmental exploration and manipulation tasks, especially in industry and research. IREP enhances productivity and safety through human-robot collaboration and autonomous decision-making, making it a powerful tool in a variety of application scenarios
America
AcuBot is a robotic system designed for robot-assisted CT-guided radiofrequency ablation (RF) procedures. It is designed to provide precise navigation and manipulation capabilities to help surgeons achieve greater accuracy and efficiency in complex medical procedures. AcuBot is equipped with a user-friendly interface that allows the surgeon to monitor and control the robot in real time to ensure the safety and effectiveness of the procedure. The system shows good potential for applications in areas such as tumor treatment, which can be performed with minimal invasion
Italy
The B-Rob II is a robot for medical applications, especially when performing biopsy procedures. Designed to improve the accuracy and safety of biopsies, the robotic system is capable of working in concert with computed tomography (CT) equipment to provide precise positioning and manipulation capabilities. The B-Rob II is designed to enable it to perform complex operations in medical environments while reducing patient trauma and surgical risk
Germany
INNOMOTION is a robotic system for Magnetic Resonance Imaging (MRI) guided procedures designed to enhance the precision and efficiency of medical operations. The robot can operate in the environment of an MRI device to provide surgeons with real-time image feedback, enabling a high degree of accuracy when performing, for example, biopsies, injections or other treatments
America
With its flexible catheter design and advanced navigation technology, the Ion Endoluminal System reaches into complex areas of the lung to help physicians precisely locate and collect tissue samples. The Ion system combines real-time imaging and intelligent control to enhance the accuracy and safety of lung nodule biopsies while reducing the risk of invasive procedures
America
It is a robotic system for urological surgery, especially in areas such as prostate. Auris Health's MONARCH system combines advanced robotics with intelligent navigation tools designed to optimize the surgeon's workflow
America
The Monarch Platform is an innovative medical robotic system developed by Johnson & Johnson MedTech for the diagnosis and management of lung diseases. The platform combines advanced robotics, imaging technology and navigation tools designed to improve the accuracy of bronchoscopy and help physicians better perform lung biopsies and treatments
America
NovaGuide™ 2 Intelligent Ultrasound utilizes cutting-edge artificial intelligence and advanced robotics to capture blood flow data in real time to help identify brain disorders that manifest themselves as changes in cerebral blood flow. Providing critical information to guide patient diagnosis and treatment, NovaGuide 2 is the only device that can automatically find the optimal temporal window and optimize blood flow velocity signals on its own transcranial Doppler solution
Britain
The NeuroMate® robot can be used for a variety of neurosurgical applications such as deep brain stimulation (DBS), neuroendoscopy, stereo electroencephalography (SEEG), biopsy, and other applications requiring stereotactic delivery. Through the use of the NeuroMate robot, the goal is to increase the safety and cost-effectiveness of procedures while improving patient outcomes through accurate delivery of implantable devices and therapies
America
The CyberKnife System is an image-guided linear gas pedal specifically designed to deliver stereotactic radiosurgery (SRS) and stereotactic body radiation therapy (SBRT).The system's precision is defined by its robotic arm and real-time adaptive delivery of radiation beams to tumors, which makes a huge difference to patients. CyberKnife's sub-millimeter precision helps to significantly reduce the risk of side effects that often disrupt patients' lives during and after treatment. The CyberKnife System is the only fully robotic radiation delivery. The CyberKnife System is the only fully robotic radiation delivery system that, in combination with real-time imaging, is capable of delivering ablative doses of radiation directly to the tumor with sub-millimeter precision and accuracy from thousands of beam angles
America
The Mazor™ Robotic Guidance System is an advanced spine surgery navigation system that provides predictability, precision and visualization. It enables surgeons to automatically identify anatomical structures and optimize the relationship between spinal elements through powerful pre-operative planning software. The Mazor™ System integrates the Midas Rex™ high-speed drilling system, which supports real-time navigation and precise connection of tools to ensure an accurate and efficient surgical procedure. The system is part of the AiBLE™ Surgical Suite, designed to plan, perform and analyze spine and cranial surgeries with a fully connected suite of surgical technologies
Singapore
The iSR'obot™ Mona Lisa is a high-precision medical robot designed for minimally invasive surgery. It utilizes robot-assisted technology and is primarily used for prostate biopsies and treatments, providing greater precision and stability.By integrating image navigation and a real-time operating system, the device is able to improve surgeon efficiency and reduce patient trauma and recovery time
America
The PAKY-RCM is a robotic system for urologic surgery. The system is designed to change the direction of the needle by adding an orientation module (RCM) between the support arm and the needle driver (PAKY).The entire system is manually placed so that the needle tip is located at the skin entry point. The RCM module can orient the needle in two directions (R1 and R2) while maintaining a fixed position of the needle tip (RCM point).Needle insertion is performed by PAKY. The PAKY-RCM system ensures safety by separating the orientation and insertion mechanisms, which means that PAKY and RCM cannot be enabled at the same time. This ensures that insertion does not take place during orientation and that orientation is locked when the needle is inserted. In addition, needle orientation is performed only when the needle is located outside the body to ensure that the system does not accidentally damage any structures outside the needle's trajectory
Singapore
DynaTRIM is a precision positioning platform for MRI-guided biopsies focused on prostate-related diagnosis and treatment. The system provides stable guidance and positioning of surgical instruments through a base plate mounted on the MRI scanner bed. It supports physicians in performing high-precision puncture and biopsy operations in the MRI environment while ensuring device compatibility with the imaging system. DynaTRIM enhances the precision and maneuverability of MRI-guided procedures, and is one of the most important tools in modern medical imaging assistive technology
Netherlands
The Soteria RCM further improves prostate cancer diagnosis by enabling physicians to perform targeted prostate biopsies, using optimal imaging modalities and ensuring consistent quality of diagnostic imaging and biopsy-guided images. Reduced procedure times increase patient comfort and reduce patient movement, resulting in improved accuracy of biopsy results
Germany
The BrainLAB system is an advanced surgical navigation technology widely used in spine surgery and neurosurgery. The system utilizes real-time imaging and computer-aided navigation to help surgeons pinpoint anatomical structures, thereby improving surgical precision and safety. Through three-dimensional visualization, the BrainLAB System provides intuitive surgical path planning, effectively reducing surgical risk and shortening patient recovery time
America
The Stryker System 8 utilizes advanced battery technology to enhance the durability and reliability of the device while reducing intraoperative pauses. Its ergonomic design helps reduce surgeon fatigue and improve surgical outcomes, making it one of the leading solutions in orthopedics
America
YOMI is the first and only FDA-approved robotic system for dental surgery that helps clinicians plan and maneuver dental implant placement through interactive digital planning YomiPlan™ software and physical guidance of surgical instruments. The YOMI robot has been used in more than 21,000 implant surgeries and more than 850 full-arch restorative procedures. The system provides real-time guidance through haptic feedback to prevent the robotic arm from deviating from predetermined resection boundaries, thereby improving surgical accuracy and safety
America
ExcelsiusGPS allows surgeons to operate through one or several small incisions, providing greater surgical coverage. ExcelsiusGPS® can be used to perform spine surgery and brain surgery, including brain tumor resection, biopsy, catheter placement, thrombus removal, and management of tremor symptoms. Navigation technology involves real-time visualization of the position of surgical instruments and implants in relation to each patient's anatomy
Britain
The iASSIST® Knee V2 System is an advanced surgical navigation technology designed to assist surgeons during knee replacement surgery. The system utilizes smart sensors and real-time navigation technology to provide precise intraoperative guidance for mechanical axis alignment without the need for additional large equipment. With its easy-to-use process and high-precision alignment capabilities, iAssist® improves the accuracy of surgical outcomes and reduces the risk of post-operative complications for patients. Its portability and reliability make it a highly effective aid in knee replacement surgery
America
KneeAlign®2 is a portable surgical navigation system primarily used in knee replacement surgery. The system consists of a display console, reference sensors, and positioning sensors that help surgeons achieve precise femoral and tibial alignment without the need for large navigation equipment. It is compact and easy to operate, and can be fixed directly to surgical instruments to provide real-time angle and positional feedback, thereby improving surgical accuracy and patient recovery
Palestine
The Mazor X System combines 3D image planning, surgical navigation and precision robotics to help surgeons create detailed plans before surgery and provide real-time assistance during surgery. The system improves surgical precision and safety, reduces surgical-related risks, and shortens patient recovery time. the Mazor X System is particularly suited for complex spine cases and represents a significant technological advancement in the field of spine surgery
Switzerland
NextAR TKA (Total Knee Arthroplasty) is an advanced navigation and augmented reality (AR) assist system designed specifically for total knee replacement surgery. The system combines precise, personalized anatomical data with augmented reality technology to help surgeons visualize bone structure and implant position in real time during surgery. Eliminating the need for cumbersome, large-scale equipment, the NextAR TKA enables high-precision operations with a portable solution that optimizes post-operative function and patient recovery. It represents a new generation of smart technological innovation in the field of knee replacement surgery
China
TiRobot is an orthopedic surgical robot that specializes in the precise treatment of orthopedic diseases. It combines robotic technology with 3D image navigation for complex operations such as internal fracture fixation and spine surgery, enhancing surgical precision and safety. TiRobot supports real-time monitoring and intraoperative adjustments to help doctors complete surgeries more efficiently, reducing post-operative complications and patient recovery time. The system has been widely used in orthopedic surgery in many countries and regions
America
The O-arm Surgical Imaging System is an advanced intraoperative imaging system for spine, orthopedic and trauma surgery. The system provides high-quality 2D and 3D images to support real-time navigation during surgery, improving surgical precision and safety. Its 360-degree imaging capabilities allow surgeons to gain a clearer understanding of anatomical structures and perform immediate assessments during surgery, reducing the complexity and repetitiveness of procedures
America
S8 StealthStation is an advanced surgical navigation system for neurosurgery, spine surgery and ENT. The system supports surgeons with high-precision anatomical positioning by integrating imaging data (e.g. CT, MRI, etc.) and real-time navigation technology. Its intuitive user interface and high-resolution display help surgeons perform more precise surgical planning and operations, reducing damage to healthy tissue and improving patient success rates. This device represents a cutting-edge development in modern surgical navigation technology
Germany
The Gait Trainer GT1 is a rehabilitation device designed for gait training, primarily for neurorehabilitation and movement disorder patients. It integrates a running platform, dynamic gait analysis and a feedback system to help patients regain their walking ability through personalized training programs. The device provides real-time gait data, including stride length, speed and symmetry, so that training can be adapted to meet the needs of the patient. The Gait Trainer GT1 is widely used in rehabilitation centers to provide safe and efficient walking training support for patients
Germany
The Bi-Manu-Track Upper Extremity Rehabilitation Robot is an assistive therapy device for patients with high levels of paralysis after stroke, specializing in repetitive training of the wrist and forearm, such as forward flexion and forward rotation. The system opens up a wide range of applications by performing exercises through mirror therapy. Bi-Manu-Track can be adapted to the patient's specific situation by adjusting the difficulty level, amplitude, speed and resistance of the training, and the training parameters can easily be adjusted to the level of competence that the patient actually needs or is currently adapting to. The device helps to improve wrist dexterity, reduce the development of hand spasms, increase muscle strength and endurance, and allows for the option of specific training of the affected arm, thus improving the ability to use the affected arm in daily life
Greece
The G-EO System Evolution is the latest and most advanced robotic rehabilitation system for gait retraining, helping patients with a wide range of orthopedic problems and injuries to regain strength and improve gait. It is designed based on exercise recording data and allows patients to regain their ability to walk in a shorter period of time
Switzerland
Andago is mainly used for rehabilitation, especially for walking rehabilitation of the lower limbs. It combines advanced technology with a comfortable design and is designed to help stroke victims and other patients with mobility impairments improve their gait and movement by providing support and feedback
Switzerland
The G-EO System™ is a powered gait rehabilitation exoskeleton with a fixed frame. This wearable robot is able to retrain not only proper walking but also stair climbing
Switzerland
Gait Rehabilitation System Lokomat® Nanos is an advanced robot-assisted gait training device for gait recovery in rehabilitation. The device combines robotics and biofeedback to help patients with gait training during rehabilitation and thus improve walking ability .It is particularly suitable for patients with stroke, spinal cord injuries and other conditions that cause motor dysfunction
Spain
The Enobio Digital Amplifier is a digital amplifier for electroencephalogram (EEG) signal acquisition with high accuracy and low noise characteristics that provides real-time monitoring and analysis in a variety of application scenarios, such as neuroscience research, clinical diagnostics, and psychology experiments. This device typically supports wireless connectivity for easy data transfer and motion monitoring
America
A Lower-limb Robot (LLR) is a robot specifically designed to aid and enhance motor function in the lower limbs, often for rehabilitation, assisted walking, or to provide support. These robots can help people with mobility impairments, such as stroke victims, spinal cord injury victims or the elderly, by improving their mobility and quality of life
China
UFACTORY uArm is a desktop-class robotic arm for education, research and light industrial automation. uArm is equipped with various functions such as gripping, laser engraving and 3D printing, which is suitable for programming learning and creativity projects
America
Burt incorporates brain-computer interface technology to control the user's movements through his or her mind. Burt's goal is to advance brain-computer interface technology for a variety of applications, including healthcare, entertainment, and virtual reality. Burt's design emphasizes the natural interaction between the human body and the machine, aiming for a more efficient and intuitive way of operating the machine
America
Haptic Feedback Thimble is designed to enhance user interaction with virtual environments through haptic feedback. The device, typically a finger cuff with sensors and a tiny vibration motor, provides users with feedback on the results of their actions in the virtual environment, such as the sensation of touching or grasping an object
Switzerland
LokoMat is a robotic assisted rehabilitation device for gait training. LokoMat combines advanced robotics and feedback systems to help patients relearn to walk during the rehabilitation process. It provides personalized training programs for different gait patterns and motor abilities, and is widely used in neurological rehabilitation and the rehabilitation of patients with spinal cord injuries. With LokoMat, hospitals and rehabilitation centers are able to more effectively support patients in their recovery process
Germany
Robowalk is mainly used in the field of rehabilitation and physical therapy. It combines robotic technology and a computer control system to provide patients with personalized gait training to help them regain their ability to walk. Robowalk is designed to be adapted to the needs of different patients in order to provide effective support during the rehabilitation process and to promote the ability to walk independently
France
Highly programmable and interactive, NAO robots are widely used in education, research, and entertainment. Equipped with a variety of sensors and capable of speech recognition, gesture recognition, and expression recognition, NAO is suitable for use as a tool for learning programming and as a demonstration of human-robot interaction
Japan
PARO is an advanced interactive robot developed by AIST, Japan's leading industrial automation pioneer. It allows the documented benefits of animal therapy for patients in environments where live animals present therapeutic or logistical difficulties, such as hospitals and extended care facilities
Canada
Motore is a device for functional rehabilitation of the upper extremity designed to help patients improve strength, dexterity and coordination in the arm and hand. This system typically combines advanced technology and exercise therapy to provide a personalized rehabilitation experience through adjustable training routines for patients who have suffered a stroke, trauma, or other condition that affects upper extremity function
China
With AMADEO®, patients can train all aspects of grasping and finger extension. Patients who are barely or unable to grasp can perform hundreds of robot-assisted grasping maneuvers. Through biofeedback and necessary assistive interactions, the patient's affected hand can be actively engaged. With the additional EMG module, AMADEO® allows patients who are unable to generate detectable force at the fingertips to benefit from active therapy
Japan
AIBO combines artificial intelligence and robotics to mimic the behavior and emotional responses of real dogs. It is equipped with a camera, microphone and various sensors that enable it to interact with its surroundings, recognize its owner and express emotions such as happiness, sadness or excitement
Japan
RoBoHoN is a small humanoid robot with both cell phone functions and intelligent assistant features. It is designed to serve as a life companion, providing functions such as voice interaction, information query, photo taking, video playback, etc. RoBoHoN is not only different from traditional robots in terms of appearance, but also its vivid performance and intelligent features make it a unique technological product. It is suitable for home use and can also be used in business situations, demonstrating the potential of humanoid robots in daily life
Korea
The iRobiQ is an intelligent robot manufactured in Korea that is primarily used in home and office environments. It is equipped with voice recognition, home management and entertainment features to help users with daily tasks such as remote control of appliances, playing music, providing information, etc. iRobiQ combines artificial intelligence and automation technology with the aim of enhancing the user's convenience of life
Italy
MARIA T21 is used in psychomotor therapy for children with Down syndrome (to help improve their proprioception, postural balance and gait) and psychosocial and cognitive therapy for children with autism spectrum disorders. The robot uses an embedded mini-video as a novelty The projector is able to project Serious Games onto the floor or table to make the therapies that have been established more interesting for these children, and thus for the child and the therapy
Sweden
Furhat is a robot that can simulate real human conversations, is highly customizable and expressive, and can be used in a wide range of fields such as customer service, education, entertainment, etc. Furhat Robotics aims to improve the human-robot interaction experience through natural communication between robots and humans
France
Buddy is designed to provide companionship and assistance to families, with the ability to recognize the user and enable voice conversations and interactions. It can perform a variety of tasks, such as controlling smart home devices, providing information, and accompanying the elderly or children, etc. Buddy's design focuses not only on functionality, but also on a humanized appearance, aiming to enhance the user's quality of life
Japan
The Pepper robot is a humanoid social robot designed to interact and communicate with humans. It recognizes and responds to human emotions, understands speech and facial expressions, and is capable of engaging in simple conversations. Pepper is primarily used in areas such as customer service, education, and entertainment, where it can provide users with information and emotional support
America
Pleo is a bionic robot that mimics the form of a small dinosaur and is able to develop its own personality by interacting with and learning from the user through artificial intelligence. Originally released in 2006, Pleo is a pet-like smart toy designed to provide emotional interaction
Japan
The RoboticBed® combines the functions of a bed and a wheelchair and is designed to help older adults or patients with limited mobility maintain their independence. The device automatically adapts its posture to the user's needs and enables patients to easily transfer from bed to sitting position with the built-in wheelchair feature. Its intelligent design reduces the burden on caregivers while increasing the user's comfort and autonomy
America
ReWalk™ is an exoskeleton robotic system developed by ReWalk Robotics, Inc. designed to help patients with spinal cord injuries regain functionality in standing, walking and gait. The device supports the user to walk autonomously with assistance through an electrically powered brace and an intelligent control system. ReWalk™ not only improves the patient's independence, but also enhances their quality of life. This technology has important applications in rehabilitation therapy and functional recovery of patients
America
EksoGT™ is designed to help people with stroke, spinal cord injury and other conditions that cause loss of walking ability to walk. The device combines robotics and intelligent control to support the user's movement and gait training, promoting rehabilitation and functional recovery. EksoGT™ is also adjustable to adapt to the needs of different users, enhancing their ability to walk independently and thus improving their quality of life
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Japan
HAL (Hybrid Assistive Limb) is a hybrid assistive limb technology designed to help restore motor function to patients who have lost the ability to walk due to neurological disorders or movement disorders. HAL technology facilitates natural walking and rehabilitation by incorporating biosignals through a wearable device that allows the user's intent to be translated directly into action
Korea
The H2 Exoskeleton typically consists of multiple joints driven by brushless DC motors designed to provide enhanced mobility and support. They may be designed for a number of purposes including aiding gait recovery, enhancing physical strength, or for use in industrial and military applications to improve the efficiency of soldiers and workers
Switzerland
MyoSuit is a lightweight, flexible wearable device designed to help restore function to individuals who have lost the ability to exercise. By utilizing advanced sensor and motor technology, MyoSuit's design focuses on a person's natural movements in order to enhance the user experience during rehabilitation and training. The device can be used in physical therapy and rehabilitation, especially for stroke victims and other dysfunctional patients. Through personalized training programs, MyoSuit helps patients gradually regain muscle strength and motor coordination
Japan
The Honda Walking Assist Device is an assistive walking aid designed to support people with gait problems. The device assists the user to regain a normal walking gait through precise mechanics and power support. It is designed to be lightweight and comfortable, providing a natural feeling of gait, and is suitable for patients or elderly people who need gait correction and restoration. The device utilizes Honda's expertise in robotics and features an intelligent control system that adjusts to the user's gait needs
America
Indego Mobility Device, specializing in innovative assistive technology for people with disabilities Indego is a wearable exoskeleton that helps people with lower limb paralysis regain their ability to walk. By working in tandem with the body's natural movements, Indego can help users improve their quality of life and regain partial mobility.
Palestine
The Aer-O-Scope colonoscope is a disposable colonoscope that meets the growing demand for disposable endoscopes to reduce disease transmission, lower operating costs and comply with changing endoscopic hygiene guidelines. As camera technology continues to improve, the use of the Aer-O-Scope disposable solution offers clinics and hospitals a pathway to state-of-the-art visualization technology without the cost of capital equipment. The Aero-O-Scope system is currently in advanced clinical trials
Germany
The CorPath GRX System is the first FDA-approved robotic precision-assisted medical system for coronary intervention and peripheral intervention
Britain
The OC Robotics Series II X125 System is mainly used for automated operations in complex environments, especially for precise operation and monitoring in small or restricted spaces. The robotic system combines a highly flexible robotic arm with intelligent control for multiple industries such as manufacturing, aerospace and medical
Germany
Franka Emika aims to provide high-precision and highly flexible robot solutions, especially for the medical technology sector. The robotic system is equipped with a seven-degree-of-freedom arm that mimics the precise movements of a human being and offers excellent maneuverability and stability
Denmark
With an arm load capacity of 5 kg, the UR5e is suitable for a wide range of industrial automation tasks such as assembly, welding, packaging and material handling etc. Popular for its flexibility and ease of programming, the UR5e is equipped with an intuitive touch screen interface, making it easy for users to get started without a deep programming background. In addition, the UR5e can be seamlessly integrated with other equipment, making it suitable for use in dynamic and changing production environments. The robotic arm also features a safety design that allows for safe collaboration with human workers to enhance productivity
Switzerland
The ENF-P4 is a newly developed optical endoscope with an 85° field of view and enhanced brightness, providing a clear view of the nasal and throat area. It can be tilted up or down up to 130°, making it easier to insert, remove and maneuver
Germany
The 7-DoF Franka Emika robotic arm has 7 degrees of freedom, meaning it can perform complex movements in space to perform a wide range of tasks such as assembling, packaging, welding, and teaching. The Franka Emika was designed to improve the efficiency of human-machine collaboration, emphasizing ease of use and flexibility for working with human workers in dynamic environments
Palestine
The M2A capsule robot is a miniature medical device that is primarily used for endoscopy and other medical applications. This capsule robot is able to move around inside the patient's body, transmitting real-time images through a camera, thus helping doctors examine internal structures such as the digestive system. The M2A capsule robot is smaller and less invasive than traditional endoscopes, making the patient experience more comfortable
America
Articulated support arm MRI-Safe® is a support device specifically designed for use in the Magnetic Resonance Imaging (MRI) environment. Its function is to stabilize and support the positioning of various medical devices, probes or patients during MRI examinations. The design of this support arm ensures that there is no interference during the MRI scanning process and that the quality of the scan is not compromised
China
Apollo Pro is an advanced radiography system primarily used for medical imaging, such as X-ray examinations. The system is designed to improve image quality and reduce radiation dose for patient safety and comfort
Korea
BIO-PROS-1 is a medical technology robot specifically designed to assist medical professionals in performing various medical examinations and operations. With precise positioning and mobility, the robot can perform tasks in operating rooms and clinical environments to improve the efficiency and safety of medical procedures
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China
MGIUS-R3 is a state-of-the-art ultrasound imaging system from MGI Tech, specialized in providing high-resolution imaging results in the medical field. It combines innovative ultrasound technology with intelligent algorithms for fast and accurate diagnosis, and is widely used in cardiovascular, gynecology, urology, and many other fields.MGIUS-R3 features real-time imaging, a convenient user interface, and highly efficient data processing capabilities, which enhance the diagnostic accuracy and efficiency of healthcare workers. Its compact design and high performance make it suitable for a wide range of clinical environments
Singapore
The iSYS1 is a multifunctional medical device that integrates advanced image-guidance technology for neurosurgery. Featuring an omni-directional workstation design that combines visualization and precise positioning capabilities, the device is able to provide real-time image assistance to ensure high surgical precision. iSYS1 works in tandem with the Visualase system to support minimally invasive surgeries, especially in brain surgeries, which dramatically improves treatment outcomes and patient safety. With the user-friendly interface, doctors can operate and monitor the surgical process more conveniently
Japan
Pepper is a humanoid robot. It was first released in 2014 and is designed to interact with humans .Pepper recognizes facial expressions and emotions and interacts with humans through voice communication. It is primarily used in the retail, education, and service industries, and is capable of providing customer service, information counseling, and social interaction. Pepper has flexible limbs and mobility, and can perform simple dance routines and gesture changes to enhance the fun and attractiveness of human interactions
Germany
Vemotion is a robotic platform for delivering remote care and support. Vemotion is designed to facilitate more effective communication between caregivers and patients through features such as augmented reality, video calls and real-time data analytics
Japan
RI-MAN aims to enhance human operation and efficiency through robotics. RI-MAN is designed to enhance intelligent operation and human-robot collaboration, demonstrating its unique potential for applications in a variety of fields, including scientific research, healthcare, and education. The project involves technologies such as flexible manipulation of robot arms, sensor technologies, network communications, etc., in order to interact directly with humans and perform complex tasks. RI-MAN may also focus on how robots can be used to optimize workflows and improve the quality of human daily life
America
Vecna BEAR (Battlefield Extraction-Assist Robot) is a rescue robot.Designed to help military and emergency responders quickly and safely move injured personnel from the battlefield or disaster site, the BEAR robot features a powerful arm and flexible tracked chassis that can carry up to 500 lbs. and can operate in a variety of complex terrains.It can also be remotely controlled to achieve high-precision tasks, which significantly improves rescue efficiency and safety
Croatia
RONNA (Robotic Neuro-Navigation) is a neuronavigation robot designed to improve precision and safety during surgical procedures. The system combines robotic technology with advanced neuro-navigation capabilities to help surgeons position and maneuver more accurately during brain and spine surgeries. RONNA's high-precision navigational capabilities dramatically reduce surgical errors, improve patient recovery rates, and reduce surgical time
Germany
Care-O-bot is a service robot designed for elderly care and assistive work in the home environment. It is capable of interacting with humans to perform tasks such as delivering items, cleaning, and daily care support. Employing a variety of sensors and intelligent algorithms to ensure safe interaction with humans and autonomously adjusting to changes in the environment, Care-O-bot is designed to enhance the quality of life of the elderly and reduce the workload of caregivers
France
ENRICHME aims to improve human-machine interactions using artificial intelligence and natural language processing technologies. The project focuses on enhancing the user experience through speech and dialog technologies, enabling machines to better understand and respond to human needs. ENRICHME advances the use of intelligent systems in education, healthcare, and everyday life through multimodal interactions that improve a machine's ability to understand a user's emotions, intentions, and context
Italy
MoveCare is a service robot designed to support the independent living of older people and is designed to improve their quality of life. The robot is able to provide personalized care support through a combination of artificial intelligence, robotics and remote monitoring capabilities. MoveCare not only helps seniors with their daily activities, but also monitors health and ensures that seniors receive the necessary help and care in their homes by connecting them with family members or caregivers. The goal is to help seniors maintain their independence while providing timely support and safety
Switzerland
CARESSES is a project that aims to utilize robotics to improve the mental health and loneliness of older adults. The project focuses on the development of culturally sensitive social robots capable of providing emotional support to older persons based on their cultural background and individual needs. By interacting with older people, these robots help to alleviate loneliness and promote mental health, especially when faced with social isolation. Research has shown that culturally competent robots can be more effective in building trust and communication with older people, thereby enhancing their quality of life
Spain
PHAROS is a fitness robot designed for seniors, its main function is to act as an intelligent fitness trainer, providing personalized exercise guidance to help seniors perform workouts that are appropriate for their physical condition. PHAROS is capable of guiding users through exercise through voice and movement, while monitoring their health status to ensure the safety and effectiveness of the workout, aiming to enhance seniors' PHAROS is designed to improve the health and quality of life of the elderly
China
XFCS-A is an autonomous assistant robot designed for assistive tasks. It is equipped with intelligent navigation and object manipulation capabilities to perform tasks such as lifting objects and simple interactions in a human environment. Its application areas include medical assistance, logistics and transportation scenarios, providing intelligent solutions to improve efficiency and reduce the burden on humans
Japan
The HOSPI-R is specially designed for the transfer of goods within hospitals and healthcare facilities. Able to navigate autonomously and avoid obstacles, it is responsible for delivering medicines, documents and other medical supplies within hospitals, thus easing the workload of healthcare workers. HOSPI-R is equipped with a touch screen for easy user operation and interaction, and has an efficient battery life to ensure long operation times. Its innovative design and automation features help improve hospital efficiency and service quality
China
DoRo Robot is an intelligent robot for seniors designed to help improve their quality of life through technology. It focuses on providing intelligent care services for the elderly with a variety of features, such as voice interaction, health monitoring, and emergency calls, to provide companionship and real-time assistance. These robots usually integrate technologies such as voice recognition, artificial intelligence, and remote monitoring, and are able to provide daily support for the elderly, including emotional companionship and health reminders, making them particularly suitable for elderly people living alone or those who need long-term care
Spain
Support is mainly used in the medical and healthcare field, aiming to provide assistive services for the elderly and mobility-impaired people to enhance their quality of life. The robot is equipped with features such as navigation and voice interaction to help patients in hospitals, care facilities and other environments
America
The Xenex LightStrike is a highly effective germicidal robot based on ultraviolet (UVC) technology designed to disinfect and kill a wide range of bacteria, viruses, and pathogens by means of a powerful UV light source. It is primarily used in hospitals, healthcare facilities, hotels, and office environments to help reduce pathogens in the air and on surfaces to ensure a hygienically safe environment
China
Through a high degree of automation, MedRobo is able to perform precise operations, respond quickly and reduce human error, especially when dealing with routine tasks and emergency situations. Manta Design's design philosophy focuses on user-friendliness, clear operator interfaces, and efficient task fulfillment to enhance operational efficiency and patient experience throughout the healthcare system
America
Tru-D is an intelligent UVC disinfection robot that uses UVC technology to disinfect and kill air and surface pathogens such as bacteria, viruses and other microorganisms. Tru-D's core technology is the Intelligent Total UVC Disinfection System (IQ System), which uses sensors and advanced technology to disinfect and disinfect air and surfaces. The core technology of Tru-D is the "Intelligent Total UV Disinfection System" (IQ System), which, through sensors and advanced algorithms, automatically adjusts the dosage of UV light according to the specific conditions of the environment and ensures uniform and efficient disinfection
Denmark
UVD robots work by disinfecting surfaces and air in a room through automated UVC irradiation, reducing the risk of spreading viruses and bacteria. It is designed with a high-precision positioning system that allows for unmanned disinfection and ensures full coverage of the disinfected area
India
RoboCoV Cleaner is an indoor autonomous UV-C sanitizing robot with an advanced dual safety system. It is designed to reduce the spread of viruses and bacteria by sanitizing with UV-C lamps
Switzerland
Not only does the Mini™ UVC robot have the ability to efficiently sanitize, it is also designed to operate unattended, helping to increase cleaning efficiency and reduce manual contact. Utilizing advanced navigation technology, the robot automatically identifies and cleans a variety of environments, ensuring that UVC light covers every area that needs to be disinfected
Switzerland
Blue Ocean Robotics Intelligent robots capable of performing sterilization, nursing care, and other assistive tasks are designed to provide support and services in healthcare facilities and senior care centers. With these robots, work efficiency can be increased while reducing the burden on healthcare workers and improving the experience of patients and seniors
Singapore
The ARIS-K2 is a high-precision, versatile robotic platform for a wide range of manufacturing, assembly, inspection and other automation tasks. It combines advanced mechanical design, control systems, and powerful data processing capabilities designed to improve productivity, quality control, and operational safety
China
SEIT-UV is designed to prevent and minimize the spread of infectious diseases, viruses and bacteria through an automated approach. The robot utilizes cutting-edge UV-C disinfection technology and has been clinically tested by accredited universities, research labs and hospitals to prove its ability to eliminate 99.99% of germs
India
Indoor Disinfection RoboCop is an indoor disinfection robot. It is designed with the main purpose of providing disinfection of indoor spaces by automated means, especially in the fight against viruses and bacteria. The robot is equipped with advanced ultraviolet (UV) disinfection technology that effectively kills airborne and surface pathogens, including bacteria, viruses and mold
China
sysLavender robots are intelligent UVC disinfecting robots designed to clean and disinfect a variety of environments, using UVC technology to effectively kill bacteria and viruses. It is often designed to be easy to maneuver and can operate unattended, enhancing hygiene and safetytem
America
The Xenex LightStrike is a robot for sterilization, primarily used in hospitals and medical facilities. It uses high-intensity UV light exposure to destroy bacteria, viruses, and other pathogens to improve environmental hygiene and prevent the risk of infection. The LightStrike robot typically relies on its multi-directional UV lamps to disinfect in a short period of time, often covering a room in just a few minutes
America
The Tru-D Intelligent UVC Robot is an automated device that utilizes ultraviolet (UVC) technology for disinfection and is widely used in hospitals, clinics, and other environments that require stringent disinfection. It effectively removes pathogens such as bacteria and viruses from air and surfaces by precisely calculating the amount of UVC exposure. The robot is equipped with sensors that automatically adjust its path according to room layout and obstacles, ensuring that every corner is fully disinfected
America
The Helios UV-C Disinfection Robot uses powerful UV-C light to kill germs and ensures complete disinfection by automatically moving and adjusting its angle of exposure to the environment. The robot uses a multiple light source system to cover more areas in a single run, reducing the number of disinfection dead spots
America
VIOLET is an intelligent UVC sanitizing robot developed by Xenex that uses powerful ultraviolet light (UVC) technology to quickly eliminate bacteria, viruses and other pathogens. It is widely used in hospitals, healthcare facilities and commercial environments to disinfect rooms, surfaces and air. The VIOLET robot moves automatically, recognizing and avoiding obstacles with built-in sensors to ensure an efficient and comprehensive disinfection process
China
AIDBOT is an artificial intelligence-powered disinfection robot that combines ultraviolet light (UVC) and automated navigation technology to autonomously detect and disinfect indoor air and surfaces, effectively removing bacteria, viruses and other harmful microorganisms. The robot is able to assess the environment and develop disinfection paths in real time, ensuring that each area is thoroughly disinfected
Denmark
The UV Disinfection Robot is an automated disinfection robot that utilizes ultraviolet (UV) technology to effectively reduce the risk of infection by destroying airborne bacteria, viruses, and other pathogens on air and surfaces with powerful UV lamps. The robot is equipped with an intelligent navigation system that autonomously identifies obstacles and optimizes the cleaning path to ensure that every area is thoroughly disinfected
Italy
Equipped with advanced LIDAR, cameras and sensors, the PHS-M is able to navigate autonomously and avoid obstacles, adapting to complex work environments. It works seamlessly with other equipment to automate the handling and transportation of goods and improve work efficiency
China
syNosocomial infection control is based on the TMiRob, which integrates multiple disinfection modes into one, has autonomous navigation technology and moves autonomously. It can set up disinfection modes on demand according to different scenarios, with fully intelligent operation and human-machine separation to ensure personnel safety. It meets the demand for automatic, timed, efficient and accurate disinfection and epidemic prevention in indoor environments with many rooms or complex layoutsstem
America
Roomba i7 is an intelligent cleaning robot that automatically recognizes the layout of a room and accurately plans a sweeping path to ensure that every corner is cleaned. It comes with a powerful vacuuming system that picks up dust, pet hair and other debris from carpets and hard floors. Roomba i7 also supports smart home control, allowing users to set up cleaning schedules and control the device remotely via a mobile app
America
Peanut is an intelligent robot designed for cleaning and sanitizing tasks that uses advanced automation technology to perform efficiently in a variety of environments. It intelligently recognizes and treats different types of surfaces, using UV light or other disinfection technologies to kill bacteria and viruses, ensuring a hygienic and safe environment. Peanut has autonomous navigation capabilities, enabling it to autonomously avoid obstacles and complete tasks in complex environments
America
Swingobot 2000 is an automated floor cleaning robot from Solenis designed for commercial environments to efficiently clean large areas. Using advanced navigation and sensing technology, it autonomously plans its own cleaning routes to ensure an even and efficient cleaning of floors. Swingobot 2000 is equipped with a powerful vacuuming and scrubbing system for different types of floors, such as hard floors and carpets
America
The IRIS 3200M UV-C Sterilization Robot is a UV sterilizer designed for hospitals and medical facilities, using advanced UV-C technology for efficient sterilization. It is able to move flexibly in a variety of environments and ensures that a wide range of surfaces and air areas are thoroughly disinfected, helping to prevent the spread of infection
America
Pathfinder is a robotic system for neurosurgery designed to provide high-precision navigation and manipulation capabilities to assist physicians in complex brain surgeries. The system consists of an advanced robotic arm capable of moving accurately according to a predefined path while minimizing human error. the Pathfinder is equipped with real-time imaging technology that ensures precise localization of the target area during surgery, improving safety and outcomes
Switzerland
Swisslog robots cover warehousing, picking, transportation and other aspects of the warehouse, can significantly reduce the manual operation, improve the degree of intelligence and automation of warehouse management. Swisslog's robots can be seamlessly integrated with other automation equipment and software, to provide a flexible solution to meet different business needs
Japan
The Hospi Robot is an automated delivery robot developed by Panasonic and designed for hospitals and healthcare environments. It can automatically transport medications, samples and other items, reducing the burden on healthcare workers and increasing work efficiency. The Hospi robot is highly capable of autonomous navigation, avoiding obstacles and traveling safely on a preset path
America
TUG robots are used in hospitals and medical facilities to transport items such as medicines, supplies and bed linen. they are able to navigate autonomously in complex environments, avoiding obstacles and completing tasks according to predetermined routes and timetables. TUG robots are designed to reduce the need for manpower through the integration of advanced sensors and intelligent software, enabling the efficient and safe transfer of supplies
America
sysThe SpeciMinder Robot is an automated monitoring system for tracking and recording samples in pathology laboratories. It is able to ensure accurate tracking and recording of samples through barcode scanning and data management technology, thus improving laboratory efficiency and safety. The robot has efficient automation features that reduce human error and ensure sample integrity and real-time updates of flow informationtem
Korea
With advanced navigation and positioning technology, Medicart can move autonomously in complex environments, ensuring efficient and accurate delivery services. Medicart has security features that prevent unauthorized personnel from interfering with its work, ensuring the safety of medical supplies
America
ATLIS AGVs (Automated Guided Vehicles) are an excellent choice for moving carts and other objects. To pick up a load, the ATLIS vehicle places itself under the load. The vehicle's deck is equipped with a motorized lift that extends to relieve the load from the floor or a stand. The vehicle is FMC Technologies' smallest guided vehicle and has a very compact design
America
RP-VITA is an autonomously navigated telemedicine robot capable of providing telemedicine services within hospitals, allowing doctors to communicate with patients in real time through video and audio capabilities. It has a high degree of dexterity and mobility, enabling it to move freely in complex hospital environments. The robot also integrates a variety of sensors to ensure safe and efficient interactions with patients
Switzerland
YuMi® robots have a dual arm structure with flexible movement capabilities for precise assembly tasks and product handling. YuMi® integrates advanced vision technology to recognize and grasp a wide range of objects
Estonia
The Starship robot is a small autonomous delivery robot designed to make last-mile deliveries. They are able to navigate safely in urban environments, avoiding pedestrians and obstacles, in order to complete deliveries efficiently. Starship's robots are typically used to deliver food and other small packages
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Japan
The Muratec Keio Robot (MKR) is equipped with advanced sensors and navigation technology to move and interact with people in complex environments. The MKR is capable of providing information, delivering items, and performing other daily tasks to increase productivity. Its design emphasizes user-friendliness and flexibility to respond to different service scenarios
Netherlands
Flexbed is a new robotic hospital bed designed to improve patient comfort and efficiency of care. It automatically adjusts the position of the bed to help patients enter and exit the bed more easily, while enhancing the workflow of caregivers. Flexbed is also designed with patient safety in mind, reducing discomfort and injuries caused by movement
Denmark
The MiR1200 Pallet Jack is a high-performance automated pallet handling robot designed to improve logistics efficiency in warehouses and production lines. It is capable of automatically handling loads up to 1,200 kilograms for a wide range of pallets and loads, and can automatically navigate and avoid obstacles. Its flexibility and high load capacity make it ideal for automated warehouse systems, significantly increasing operational efficiency and reducing labor costs
America
The SAVANT "Goalless" AGV hospital trolley transportation system utilizes Goalless navigation technology to enable the robot to autonomously plan its path, avoid obstacles and automatically adjust its route in complex hospital environments. The SAVANT system is designed to improve the operational efficiency of hospitals, reduce the workload of healthcare workers, and enhance the logistical efficiency of the hospital, safety and accuracy
Japan
Featuring a high-precision navigation system, EvoCart is able to move autonomously in complex environments and can be easily integrated with other systems. Designed with a focus on safety, EvoCart is equipped with advanced obstacle avoidance features to ensure safe interaction with people and objects
China
Evobot adopts advanced LIDAR and vision navigation technology to autonomously plan paths, avoid obstacles, and efficiently complete material transportation tasks in complex environments. Evobot's design focuses on flexibility and scalability, and is suitable for a variety of scenarios such as warehouses, factories, etc., which enhances work efficiency and reduces manual intervention
America
The etson AGX Xavier is equipped with a Volta GPU with 512 CUDA cores, deep learning gas pedals, and a highly efficient ARM processor to provide powerful computational capabilities. The platform supports a wide range of sensor inputs, can handle complex computational tasks, and supports AI inference and computer vision
Italy
MINERVA (Model for Intelligent and Novel Exploration of Research and Academic data) is an intelligent model for scientific research and data analysis designed to help researchers acquire, analyze, and utilize scientific data more effectively. The model combines artificial intelligence and machine learning techniques to handle large and complex data sets and extract valuable information from them
Denmark
Nursebot is a mobile robot designed for hospital environments to assist nurses in performing daily tasks such as delivering medications and medical supplies.It is able to navigate autonomously within the hospital, reducing the workload of nurses and increasing work efficiency.Nursebot is also equipped with advanced sensors to recognize and avoid obstacles to ensure safe movement
Japan
Robovie-PC is able to communicate effectively with the user through natural language processing and has the mobility to move freely in the environment. Robovie-PC is also equipped with a wide range of sensors and features that enable it to perform complex tasks
Japan
MELDOG is a project aimed at improving canine social behavior with a focus on using interactive technology to help socialize dogs. The program promotes dog-to-dog interactions through games and interactive devices to improve their socialization and mental health. MELDOG also involves the participation of dog owners to enhance the human-canine bond
Japan
Featuring advanced visual recognition and motion control technologies that enable precise execution of tasks in complex environments, LIGHBOT is designed to increase work efficiency and reduce labor costs for a variety of automation applications
Japan
Able to recognize facial expressions and voice commands, the Pepper robot can take on the role of a receptionist in places such as hospitals. Equipped with advanced artificial intelligence, Pepper is able to conduct simple conversations and provide information to enhance the user experience
Korea
EveR4 is a humanoid robot with facial expressions and emotional interactions that simulate emotions such as smiling. It is designed to improve the experience of human-machine interaction, especially in terms of socialization and emotional support.EveR4 uses advanced artificial intelligence technology to communicate with humans in a more natural way
France
InMoov is an open source 3D printed humanoid robot designed to provide tools and platforms for education, research and entertainment. It is designed to allow users to assemble and customize the robot themselves through 3D printing and electronics. The robot is equipped with voice recognition, gesture recognition and motion control and is capable of performing a wide range of tasks
China
The UBot robot is a highly flexible service robot that can move freely in a variety of environments and perform a wide range of tasks. Equipped with advanced artificial intelligence technology that enables speech recognition and natural language processing to interact with the user, UBot is designed to emphasize human-robot collaboration to help improve work efficiency
