Researchers at the Pennsylvania State University plan to test next-generation artificial intelligence skills withinthe video game Minecraft.
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A wearable computer vision device can reduce collisions for both people who are blind or those who are visually impaired and using a long cane and/or guide dog by 37 percent, compared to using other mobility aids alone.
Every day, elderly people fall – be it at home or in care facilities. Lindera aims to reduce the risk of falling with the help of artificial intelligence.
Scientists have developed a more accurate navigation system that allows robots to better negotiate busy clinical environments in general and emergency departments more specifically.
Researchers have developed a method for two individuals to share an avatar in Virtual Reality.
Although true “cyborgs” — part human, part robotic beings — are science fiction, researchers are taking steps toward integrating electronics with the body.
Students at Cranfield University have designed computer models that can identify COVID-19 in X-rays.
Experts have begun using artificial intelligence to create computer models that calculate the risk of a corona patient’s needing intensive care or a ventilator.
New prosthetic technologies that stimulate the nerves could pave the way for prostheses that feel like a natural part of the body and reduce the phantom limb pain commonly endured by amputees.
Usind deep learning and digital scanning of conventional hematoxylin and eosin-stained tumor tissue sections, researchers have developed a clinically useful prognostic marker.
Researchers have shown that AI can evaluate written messages by patients with severely diseased livers to detect language abnormalities associated with liver disease.
3D printing can be used to make a variety of useful objects by building up a shape, layer by layer. Scientists have now bioprinted living tissues, including muscle and bone.
Researchers are working on an interactive robot called Pharos that will help the elderly with their daily household chores.
Made of electronic circuits coupled to minute particles, cell-sized robots could flow through intestines or pipelines to detect problems.
Researchers have developed a worldwide pioneering robotic exoskeleton which, attached to a robotic wheelchair, helps people with varying degrees of disability carry out daily activities on their own.
Are virtual reality headsets a means to decrease fear and pain associated with immunizations in pediatric patients?
Researchers are using generative adversarial networks to improve brain-computer interfaces for people with disabilities.
Scientists have created a new triboelectric fabric that generates electricity from the movement of the body while remaining flexible and breathable.
Researchers have developed a method for the generation of controllable electrical explosions.
Researchers are developing new techniques for improving 3D displays for virtual and augmented reality technologies.
For the first time, researchers have 3D printed essential quadrupole components for linear accelerators from pure copper.
Fraunhofer Institute is developing polyurethanes of a reproducible standard.
Purdue University engineers and physIQ have developed a viral detection algorithm for smartwatches.
The wearable devices aim to reduce or redistribute spine loading associated with heavy manual work.
Wearables are becoming a trend in respiratory care and many products are being developed to monitor patients remotely. But how much can these tools really help clinicians?
A machine learning-based approach uncovered disruptions of brain connectivity in children displaying aggression.
Scientists have developed an algorithm for rapid, computerized diagnosis of COVID-19, overcoming the limitations of reverse transcription polymerase chain reaction.
An AI-based technology rapidly diagnoses rare disorders in critically ill children with high accuracy.
A lightweight powered exoskeleton helps lower-limb amputees walk with much less effort.
Secure AI Labs is expanding access to encrypted health care data to advance AI-driven innovation in the field.
AI-based solution FAITH is designed to monitor the mental health status of people who have undergone cancer treatment.
E-mental health services could provide a response to these challenges and offer effective ways for prevention, diagnosis, treatment, and aftercare.
This battery could have a wide range of applications in various types of devices, from soft robots to wearable devices.
Researchers have developed microrobots that can be powered and steered by ultrasound waves.
More than 20 hospitals from across the world together with NVIDIA have used AI to predict Covid patients’ oxygen needs on a global scale.
An electronic “nose” is capable of detecting with 86% accuracy when a lung transplant is beginning to fail.
Egidijus Pelanis, a medical doctor at Oslo University Hospital, explains how extended realities is applied in the operating room.
A rehabilitation device can increase the amount of arm exercises stroke patients do without professional supervision.
To enhance human-robot collaboration, researchers at Loughborough University have trained an AI to detect human intention.
Researchers are using virtual reality to understand the impact of moral distress on healthcare workers during the pandemic.
Scientists have developed a bio-compatible implantable AI platform that classifies in real time healthy and pathological patterns in biological signals.
For the first time, a steerable catheter will give neurosurgeons the ability to steer the device in any direction they want while navigating the brain's arteries and blood vessels.
Researchers have used machine learning to help reconstruct three-dimensional micro-CT images of fibrous materials.
A deep learning-based technique can be used to eliminate the need for special stains to be prepared by human histotechnologists.
Marc Knebel, head of Medical Systems at Evonik, explains the benefits and applications of the new high-performance polymer VESTAKEEP Care M40 3DF.
A study shows that magnetic millirobots can climb slopes, move against fluid flow and precisely deliver substances to neural tissue.
Engineers have designed a new touch-sensing glove that can “feel” pressure and other tactile stimuli. The design could help restore motor function after stroke.
Tests show that the device can help patients safely and effectively manage their blood glucose levels and reduce the risk of low blood sugar levels.
This overview introduces smart insulin delivery systems and more innovations that help patients and doctors guide decision-making in diabetes care.
Bioprinted 3D cardiac patches could reverse scar formation and promote myocardial regeneration after heart attacks.
Satellite-enabled drones have accelerated the provision of life-saving medical supplies at NHS hospitals in Scotland, boosting the country's efforts to combat COVID-19.
Engineers have unveiled an air-powered computer memory that can be used to control soft robots. It overcomes the problem of the mismatch between pneumatics and electronics.
Researchers at Terasaki Institute for Biomedical Innovation have designed a wearable sensor with wide-ranging strain sensitivity.
Scientists have created a deep learning method, RoseTTAFold, to provide access to highly accurate protein structure prediction.
The team of the Dynamic HIPS are working on a hip replacement simulator that will help future surgeons to practice the intervention.
Researchers have developed a new process for producing movable, self-adjusting materials systems with standard 3D-printers.
In order to quickly customize implants with complex structures, scientists use 3D printing technology to prepare Ti-Mo alloy implants, and then adjust the microstructure and performance through subsequent heat treatment.
A new study could help scientists mitigate the future spread of zoonotic and livestock diseases caused by existing viruses.
New research could help surgeons perform liver resections with greater accuracy and deliver improved patient outcomes.
The use of smartphone-based VR games during dressing changes icould helps to relief the pain for pediatric patients.
Researchers used an artificial intelligence (AI) algorithm to sift through terabytes of gene expression data to look for shared patterns in patients with past pandemic viral infections, including SARS, MERS and swine flu.
Researchers have discovered how to tailor-make artificial body parts and other medical devices with built-in functionality that offers better shape and durability, while cutting the risk of bacterial infection at the same time.
Researchers have developed a device using accelerometers and vibrators that can be worn on the fingertips like a thimble to help reduce 'postural sway' and improve balance amongst seniors
Researchers have designed a telepresence robot that enables people suffering from COVID-19 to talk to their loved ones.
The University of Texas at San Antonio has established a wearables and AI laboratory to provide precision treatment plans to improve learning among those diagnosed with autism spectrum disorder (ASD).
A new study from the Mayo Clinic found that differences between a person's age in years and his or her biological age, as predicted by an artificial intelligence (AI)-enabled EKG, can provide measurable insights into health and longevity.
With the aid of a virtual reality model, researchers from the Knappschaftskrankenhaus Bochum have examined, which errors can occur during the communication between the brain and robotic prosthesis.
Scientists in Dresden are expanding their digital health expertise in multiple sclerosis (MS) therapy and research with an ambitious scientific project - creating a "digital twin“ from data.
Researchers have shown that a group of small autonomous, self-learning robots can adapt easily to changing circumstances. They connected the simple robots in a line, after which each individual robot taught itself to move forward as quickly as possible.
AI-driven healthcare has the potential to transform medical decision-making and treatment, but these algorithms must be thoroughly tested and continuously monitored to avoid unintended consequences to patients.
Trained to see patterns by analyzing thousands of chest X-rays, a computer program predicted with up to 80 percent accuracy which COVID-19 patients would develop life-threatening complications within four days.
Neurolutions IpsiHand exoskeleton uniquely leverages brain-computer interface technology for chronic stroke rehabilitation
Scientists have found that a simple device can reduce swelling after kidney transplantation. Clinical trial shows shortened hospital stay for patients and reduced surgical site infections by almost 60 percent.
Researchers have repaired traumatic injuries to the skin and bones in a rat model using bioprinting during surgery.
Scientists at The German Primate Center want to use genetic engineering methods to improve cochlear implants.
EPFL spin-off Readily3D has developed a novel system that can print biological tissue in just 30 seconds.
Researchers from Penn State led two international collaborations to prototype a wireless, wearable transmitter while also improving the transmitter design process.
Human-machine interaction is complex. Researchers investigate a new form of interaction between humans and machines.
Researchers have proposed that wearable devices could be used to develop a network of health data about a patient, allowing for early diagnosis of COVID-19, even when the patient is asymptomatic.
BrainGate researchers demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
Professor Dr Henning Windhagen is a great fan of semi-automatic systems in the OR that help with implants but leave the surgeon in the driver’s seat.
Researchers combined motion analysis that uses smartphone application and machine learning that uses an anomaly detection method, thereby developing a technique to easily screen for carpal tunnel syndrome.
Researchers have created a machine learning model that helps identify bipolar disorder at earlier stages.
Researchers have created life forms that self-assemble a body from single cells and do not require muscle cells to move. They're faster, live longer, and can now record information.
Researchers are analysing the use of context-sensitive data glasses in everyday clinical practice in cooperation with tooz technologies.
Researchers are developing 3D technologies for surgeons. The aids for surgery planning are particularly advanced.
Many patients use their inhalers and insulin pens wrong. Researchers have developed a system to reduce those numbers for some types of medications.
Researchers have designed a new bioink which allows small human-sized airways to be 3D bioprinted with the help of patient cells for the first time.
Using AI and mobile digital microscopy, researchers hope to create screening tools that can detect precursors to cervical cancer in women in resource-limited settings.
Researchers have found that out of the more than 300 COVID-19 machine learning models are not suitable for detecting or diagnosing COVID-19 from standard medical imaging.
Recently, Professor Surjo R. Soekadar outlined current and upcoming applications of brain-computer interfaces.