b'OUTSTANDING INNOVATION INDIGITAL HEALTH AND SOCIAL CARE AWARDRapid engineering development and adoption of technologies such as artificial intelligence, machine learning, 3D printing, medical devices, data science and robotics is changing the way we live day-to-day life and will drive future healthcare engineering projects.AidocAI algorithm that assists radiologists in identifying medical abnormalitiesAidocs innovation is a suite of AI algorithms that support and enhance the impact of radiologist diagnosticpower, helping them expedite patient treatment and improve quality of care. The solution reduces turnaroundtime and increases quality and efficiency by flagging acute anomalies in real time. Radiologists benefit from the deep learning technology that runs behind the scenes, enabling them to focus on the diagnosis itself. 4Blind4Blind for limitless abilitiesThe device allows communication by means of synthesized voice with people who can speak and hear and access all the features of a touch-screen phone.Using the Perkins 6 keyboard, a deafblind person can type and read text. The process of communication begins with typing by pressing the six main buttons and thetext is entered on the principle of Braille. Shadow Robot The Tactile Telerobot: the worlds first smart haptic telerobot hand for hands-on healthcareThe Tactile Telerobot has been developed as a safety and mission-critical tool for environments such as pharma sterile labs and the need for this technology is exacerbated by Covid-19. The technology allows key workersto perform intricate lab tasks at a safe distance without having to physically be in the lab and without having to wait on, or work long hours in, cumbersome PPE. University of QueenslandNon-invasive Skin Cancer Detection SystemThis innovation presents an efficient, low-cost and non-invasive near-field system that can detect skin cancersat an early-stage without the need to extract any skin sample. The millimetre-waves based imaging systemutilises a substrate integrated waveguide (SIW) probe to emit and receive signals at high frequencies. University of Portsmouth and Chailey Heritage Foundation Embedded intelligent real-time digital systems to enhance the use of powered-wheelchairsWork at Portsmouth University and Chailey Heritage has resulted in new embedded and real-time intelligentdigital systems for powered wheelchairs that include: effort-reduction, predictive and interactive assistanceand collision avoidance; so children can drive for longer and in some cases for the first time. eandt.theiet.org/innovation#eandtawards 17'