hi, i have assessment need to create an poster about the attached articles. the requirement in the attached files with the sample of the poster and articles.

The 20 Semifinalist Designs in the Artificial Intelligence and Robotics for Good Award The 2016 UAE AI & Robotics for Good Award semi -finalists have been announced. The award is meant to support (and encourage) innovation in relation to artificial intelligence and robotics. The award is part of the UAE’s effort to create “a global platform for innovation.” The country hopes to high light the practical side of this technology — a side that is useful to society and adds to things like health, education, or social service. Here’s a breakdown of the semifinalists 1) Team MITBRL from the United States has developed the HERMES robot, which can enter areas that are too dangerous for humans, offering an effective solution in dealing with disaster s, such as, damaged buildings form earthquakes . The team has rece ntly successfully developed and tested a robotic system that can find and tell the difference between tissue types and organs. This allows the robot to intelligently plan and do medical operations on humans, controlling surgical tools more precisely than a human surgeon. 2) TechBridgeWorld team from the United States has come up with the Braille Tutor robot that allows blind people to learn how to write, practice writing, and be quizzed on letter s, words, and numbers. 3) The Mars Lab team from Australia aims to promote interest in Science, Technology, Engineering and Mathematics (STEM) in primary and high school students by giving them a reali stic STEM -rich experience where they can explore planets like Mars and comp lete tasks like looking for evidence of extraterrestrial life. 4) UCB & SuitX team from the United States have designed and made Exoskeletons , which are skeletons that fit outside the body, for Children who cannot walk. The exoskeletons quickly promote walking skills among these children. In this direction, SuitX and UC Berkeley want to develop low cost consumer products for rehabilitation centers, partic ularly in developing countries. 5) Makeroni Labs team from Spain has come up with their Eye of Horus project which offers support for physically handicapped people doing their daily tasks . The system use s a camera to know where you are looking. The robots then allow users to control everything with simple eye movements. This will allow the handicapped to move around smart cities using the robot. 6) The Dytective team from the United States has developed an artificial intelligence system to detect dyslexia , a disorder which makes it difficult to read or recognize written words, in individuals and help them overcome this problem by using scientifical ly supported computer games. 7) Andros Robotics team from the United States has come up with Robotic Leg Advancement Device (R -LAD), a battery -powered, computer controlled robotic system, which rides atop a small wheeled frame and helps patients undergoing training to improve their ability to walk. The R-LAD is not an assistive device, but a therapeutic one; it is meant to be used by a physical therapist, to help them treat patient s who have injured themselves . 8) The Moley Robotic Kitchen , a fully integrated automated kitchen, designed for regular homes, that cooks as well as any human chef. 9) The Carbon Robotics team from the United States has built KATIA, a low -cost robotic arm that has the capabilities of an industrial robot, but comes at the price of a laptop. It is powered by the team’s open platform that lets softwa re developers create new types of robotic applications. 10) The OSU Personal Robotics Group from the United States has come up with the idea to adopt techniques from mobi le robotics, to develop a ‘Self -Driving Wheelchair for People with Severe Motor Disabilities’. The project aims to support full -time wheelchair users, especially those with severe physical disabilities. Users will attach the package to their wheelchairs , then using the system, they will be able to build maps of their homes and offices to navigate around these spaces independently . The wheelchair user will be able to use a variety of input devices to specify where they go, depending on their particular physi cal needs: on -screen map, eye -gaze into the world, voice commands, etc. The wheelchair will then take care of the rest. Adapted from: Marquart, S. (2016, January 18). The 20 Semifinalist Designs in the Artificial Intelligence and Robotics for Good Award . Retrieved June 15, 2018, from Futurism: https://futurism.com/the -20 -semifinalist -designs - in-the -artificial -intelligence -and -robotics -for -good -award/