Purdue University engineers and physIQ have developed a viral detection algorithm for smartwatches.
Search for: cloud
AI-based solution FAITH is designed to monitor the mental health status of people who have undergone cancer treatment.
A new approach to tackling the spread of malaria in sub-Saharan Africa, which combines affordable, easy-to-administer blood tests with machine learning and unbreakable encryption, has generated encouraging early results in Uganda.
This overview introduces smart insulin delivery systems and more innovations that help patients and doctors guide decision-making in diabetes care.
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.
Smart speakers that are customarily used in your living room can be programmed to act as an aid to physicians in hospital operating rooms.
Computer scientists use TACC systems to generate synthetic objects for robot training.
A device could help scientists better understand the health benefits of outdoor lighting and lead to wearables that could nudge users to get more outdoor time.
The following seven robotic systems are either currently being deployed or developed for the fight against the coronavirus.
Scientists have demonstrated a VR technique which should help in developing drugs against the SARS-CoV-2 virus – and enable researchers to share models and collaborate in new ways.
Researchers have developed a unique diagnostic tool that can detect dystonia from MRI scans, the first technology of its kind to provide an objective diagnosis of the disorder.
avateramedical GmbH announced the acquisition of FORWARDttc GmbH, an automation technology company with special focus on robotics hard- and software.
Researchers caution that consumer wearables are not sophisticated enough to monitor the complicated illness.
Newer concepts like edge computing are regularly discussed alongside the cloud within the healthcare sector, often as if they are each exclusive approaches to infrastructure. However, using one does not eradicate the ability to utilise the other.
“AI is the biggest technological breakthrough of our lifetime. It will boost the entire healthcare ecosystem and will eventually re-invent the way we deliver medicine entirely.”
Researchers at the University of Washington have developed a new tool to monitor people for cardiac arrest while they’re asleep without touching them.
An international team of health-care investigators is piloting a new medical-delivery system that uses a "surgical strike" approach to solve pandemic problems.
A biofeedback device that is wearable and connects to novel smartphone games may offer people with incomplete paraplegia a more self-controllable therapy to enhance their recovery.
The sensor system implant provides actionable information to optimize the therapy for patients afflicted with glaucoma.
Smaller than an M&M and thinner than a credit card, device can optimize treatment of neonatal jaundice, skin diseases, seasonal affective disorder and reduce risk of sunburns and skin cancer.
Enginners have developed 3D printed assistive technology that can track and store their use — without using batteries or electronics.
Baseline study using data from the Sea Hero Quest game identifies key findings for dementia research.
Researchers have developed an integrated system for early diagnosis of diseases using wearable monitors.
Google set it sigths to transform the healthcare industry through the use of cloud technologies and machine learning.
Eric Schmidt has strong opinions about the healthcare system, its providers and professionals. He critized that the healthcare ecosystem was still being stuck in the “stone age" and challenges it to "focus on innovation".