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Technology Readiness Level…. Robots

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Technology Readiness Level…. Robots Who We are………………………........... Theme 3: Most Advanced Technologies of Robots: • Presented by: An investigation of the most advance technologies for robots, both usefulness and novelties… How has Robots been improved and how it will revolutionize the World? – Glenn Lee • Robotics Lead Teacher (1999-present) and Coordinator (2003-present)-CTE Industrial Engineering Technology Career Pathway • STEM Learning Center Coordinator, Career Technical Education Coordinator, former Extended Learning Opportunity (ELO) Project Director, School Technology Cadre and Leadership Team, Fine Arts/PE/AV/CTE dept. head. • Degree in Electrical Engineering, minor in Math, M.B.A., Teaching Certificate in Secondary Education (Mathematics, Science, and Industrial Engineering & Technology) – Waialua, Hawaii and the Waialua Robotics Program • Established in August 1999 as part of a STEM initiative to encourage students to major in Science, Technology, Engineering and Mathematics. In 1999, only 1 student from the graduating class applied for an engineering program. • Waialua, Hawaii is a rural community Many of the current families living in Waialua are the results of agricultural industry which began in the early 1900s. During the late 1980s and into the 1990s, the sugar production decreased as increasing labor and production Pressented by: Waialua Robotics Program costs caused producers to move overseas. Many of the families brought to Waialua Student Participants-Research Project: Kobe Lunasco, Cody Miyataki, Megan during the sugar rush remained here and many of their descendants reside there today. Andrada, Draven Ozoa, Isabelle Pescaia, Toshio Yoshizumi Waialua High & Intermediate School (Waialua, HI) Group #12 Most Advanced Technologies of Technology Readiness Level…. Robots.............Artificial Intelligence (AI) Artificial Intelligence (Autonomous) Technology Readiness Levels (TRL) are a method of estimating technology maturity • What is Artificial Intelligence (AI)? of Critical Technology Elements (CTE) of a -It is the science and engineering of making intelligent machines, especially intelligent computer programs. It is related program during the acquisition process. to the similar task of using computers to understand human intelligence, but AI does not have to confine itself to methods that are biologically observable. Intelligence is the computational part of the ability to achieve goals in the They are determined during a Technology world. Varying kinds and degrees of intelligence occur in people, many animals and some machines. Readiness Assessment (TRA) that -Intelligence involves mechanisms, and AI research has discovered how to make computers carry out some of them and not others. If doing a task requires only mechanisms that are well understood today, computer programs can examines program concepts, technology give very impressive performances on these tasks. Such programs should be considered ``somewhat intelligent''. requirements, and demonstrated -AI is not only about simulating human intelligence. We can learn something about how to make machines solve technology capabilities. TRL are based on problems by observing other people or just by observing our own methods. On the other hand, most work in AI involves studying the problems the world presents to intelligence rather than studying people or animals. AI a scale from 1 to 9 with 9 being the most researchers are free to use methods that are not observed in people or that involve much more computing than mature technology. The use of TRLs people can do. enables consistent, uniform, discussions of technical maturity across different types of technology Artificial Intelligence (AI)-Examples and Artificial Intelligence (AI)-Examples and Applications……. Applications……. Examples include: Examples include: • Kitchen Robot by Moley Robotics-Technology Readiness Level (TRL) 7, Usefulness Purpose • Autonomous Google Car-Technology Readiness Level (TRL) 7, Usefulness Purpose THE WORLD'S FIRST ROBOTIC KITCHEN Moley has created the world's first robotic kitchen. Featuring an advanced, fully functional robot Google self-driving cars are designed to navigate safely through city streets. integrated into a beautifully designed, professional kitchen, it cooks with the skill and flair of a They have sensors designed to detect objects as far as two football fields away in all directions, master chef. The prototype was premiered to widespread acclaim at Hanover Messe, the including pedestrians, cyclists and vehicles—or even fluttering plastic shopping bags and rogue international robotics show. birds. The software processes all the information to help the car safely navigate the road without The consumer version set for launch in 2017 will be supported by an iTunes' style library of getting tired or distracted. recipes. Artificial Intelligence (AI)-Examples and Artificial Intelligence (AI)-Examples and Applications……. Applications……. Examples include: Examples include: • Insect-like Drones-Technology Readiness Level (TRL) 7, Usefulness Purpose • ALO the Robot Botlr in Aloft Hotels by Savioke-Technology Readiness Level (TRL) 7, Usefulness Purpose One of the current areas of research reportedly being undertaken in the scientific/military field is • The robot is approximately 3 feet tall, weighs less than 100 lbs., has a carrying capacity of 2 cubic the development of micro air vehicles (MAVs), tiny flying objects intended to go places that cannot feet, and is designed to travel at a human walking pace. It can even travel independently between be (safely) reached by humans or other types of equipment. floors via the hotel elevator. When Aloft's A.L.O. arrives at the appropriate guest room, it phones Some efforts in MAV research have involved trying to mimic birds or flying insects to achieve flight the guest to announce its arrival, delivers the goods and makes its way back to the front capabilities not attainable through other means of aerial propulsion. desk. A.L.O. will know when a guest opens the door via an onboard camera. Once the door opens, A.L.O. will unlock, open its lid and provide instructions through onscreen prompts for guests to remove the item and close the lid. The Impact and Future of Artificial Research Investigation Findings in iREX Intelligence (AI)………….Pre-Study exhibition hall…… Artificial Intelligence (AI) Specific Examples Studied: Booths Visited: • Robot butlers can provide a specific set of automated skills, and one that could work, literally • FETCH Robotics, Mitsubishi, Rethink Robotics, RT Works, Kawada Robotics, NSK, Softbank Robotics, Tokyo around the clock. Metropolitan Industrial Technology Research Institute, Pacific Systems • Imagine if everyone could get around easily and safely, regardless of their ability to drive. Summary: • Aging or visually impaired loved ones wouldn't have to give up their independence. Time spent • Overall the average technology readiness level is a 7.6, ranging from 3 to 9. Most technologies utilizing commuting could be time spent doing what you want to do. Deaths from traffic accidents—over artificial intelligence have surpassed the design stage and is now an industry comprised heavily of prototype 1.2 million worldwide every year—could be reduced dramatically, especially since 94% of robots. However, this technology is advancing daily to increase our knowledge of automation. This accidents in the U.S. involve human error. advancement will help not only industries but hospitals, homes, and transportation as well. Artificial intelligence decreases the risk of injury and human error as well as helping to create independence among • Insect Drones can be used as one of the primary military applications envisioned for MAVs is the the elderly and handicapped. gathering of intelligence (through the surreptitious use of cameras, microphones, or other types of sensors); among the more extreme applications posited for such devices is that they may eventually be used as "swarm weapons" which could be launched en masse against enemy forces. • After more than 50 years after robots appeared in specialised manufacturing facilities, the advancements in automation, sensors and advanced software systems and associated cost curves mean we are at the point where robots will be seen more and more in the domestic environment. • This is an opportunity for people to enjoy very good food, and for a reasonable price. • You can download a recipe and reproduce it exactly as a Master Chef would have cooked it, wherever you are in the world. Most Advanced Technologies of 3D Printing-Examples and Robots.............3D Printing Applications……. 3D Printing Technology Examples & Applications of 3D printing in Robot Industries: • What is 3D Printing? • Medical industry-Technology Readiness Level (TRL) 9, Usefulness Purpose -3D printing or additive manufacturing is a process of making three dimensional solid objects from a digital file. The creation of a 3D printed object is achieved using additive processes. In an additive process an object is created by The outlook for medical use of 3D printing is evolving at an extremely rapid pace as specialists are beginning to laying down successive layers of material until the entire object is created. Each of these layers can be seen as a utilize 3D printing in more advanced ways. Patients around the world are experiencing improved quality of care thinly sliced horizontal cross-section of the eventual object. through 3D printed implants and prosthetics never before seen. The American Society for Testing and Materials (ASTM) group
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