Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
1 NANOROBOTICS Presented by M.Srinivasa reddy Presentation Overview ■ ■ ■ ■ ■ ■ Nanotechnology Introduction to Robotics Nanorobotics Applications using Nanorobots Fractal Robots Conclusion Nanotechnology ■ ■ ■ Nanotechnology is molecular manufacturing or, more simply, building things one atom or molecule at a time with programmed nanoscopic robot arms. A nanometer is one billionth of a meter (3 - 4 atoms wide). The trick is to manipulate atoms individually and place them exactly where needed to produce the desired structure. Introduction to robotics ■ Like nanotechnology, Robotics is the use of technology to design and manufacture (intelligent) machines, built for specific purposes, programmed to perform specific tasks. What is a Robot? ■ ■ Robots are programmable machines They range from small, miniature machines, to large crane size constructions Introduction to Nanorobotics ■ ■ ■ It deals with the controlled manipulation of objects with nanometer scale dimensions Nanomanipulation is most effective process. It is concerned with construction and programming of robots with overall dimensions at the nanoscale. Nanorobotics ■ ■ It is concerned with atomic and molecular-sized objects and is also called Molecular Robotics. Nanorobotics research has proceeded along two lines: - first is devoted to simulation with nanoscale dimensions. - second involves manipulation with macroscopic instruments. Nanorobot ■ ■ ■ ■ A nanorobot is a specialized nanomachine. It has dimensions on the order of nanometers. Typically 0.5 to 3 microns large with 1-100 nm parts. The possibility of nanorobots was first proposed by Richard Feyman in his talk “There’s Plenty of Room at the Bottom” in 1959. Features of Nanorobots ■ ■ ■ ■ Nanorobots can be categorized into two groups called autonomous robots and insect robots. A major asset of nanorobots is that they require very little energy to operate. Durability is another potential asset, may remain operational for years, decades or centuries. High speed is also a significant consideration. It can operate much faster than their larger counterparts. Nanorobots in medicine ■ ■ ■ ■ It’s structure will have two spaces consisting of interior and exterior. They will communicate with doctor by encoding messages to acoustic signals. The production of nanorobots has taken a step closer to real application due to technological advancements such as AFM , bionic motors, nanotanks, DNA as computer, and nano robotics arms. Leonard Adleman confirmed that DNA is programmable in computers. Applications using Nanorobots ■ ■ ■ ■ ■ To cure skin disease and as cosmetic cream. Can be used a a mouthwash to do all brushing and flossing. Would augment immune system by finding and killing bacteria and viruses. It would prevent heart attack , kill cancer cells etc. To monitor potentially dangerous microorganisms in the ocean. Nanorobots can be used in blood cell to detect pathogens. Fractal Robots ■ ■ Fractal robot is a new kind of robot made from motorized cubic bricks that move under computer control. These cubic motorized bricks can be programmed to move and shuffle themselves to change shape to make objects likes a house potentially in a few seconds because of their motorized internal mechanisms. Fractal Robot Example ■ Example of a Dog shaped fractal robot changing into a couch SELF-REPAIR IN FRACTAL ROBOTS. ■ ■ Self repair is an important breakthrough for realizing micro and nanotechnology related end goals. Three different kinds of self repair -Cube replacement -Usage of plates to construct the cubes. -Using smaller fractal machines to affect self repair inside large cubes. Features of fractal robots ■ ■ ■ ■ ■ ■ Communication of Power & Data Internal Battery Technology today Costs - feasible Guaranteed Sales Increased demand Applications of fractal robots ■ ■ ■ ■ ■ It can be used in medicine. In mining. Using fractal robots it is possible to build even a space station. Can be used to build roads and clear mines In agriculture Conclusions ■ ■ ■ All of the current developments in technology directs human a step closer to nanorobots production. Nanorobots can theoretically destroy all common diseases of the 20th century, thereby ending much of the pain and suffering. Although research into nanorobots is in its preliminary stages, the promise of such technology is endless. Thank You! Any Questions?