Trash Robot

Robots with tactility and the correct movement and posture

AI Lab Artificial Intelligence in Zurich Switzerland and embodiment of Robots.

AI Lab Artificial Intelligence in Zurich Switzerland and embodiment of Robots.http://www.expo21xx.com/automation21xx/17887_st3_university/default.htmVideo About ECCEROBOT the home of the first anthropomimetic robot a humanoid robot that mimic the human form.
http://www.expo21xx.com/automation21xx/17887_st3_university/anthropomimetic_robot_3.jpg image source see desktopAlso the source of the image used in this postThis company is specialising in building and developing three prototypes ECCE1, ECCE2 and ECCE3. Th human cognitive replication has been developed through sensory motoring coupling, this will help the tactility of any Robot because sensory motoring coupling has to be perfect so the Robot can handle and control his hands and understanding neural controls of humans is very complicated so by getting an interview or report from this company will be very helpful to inform you the readers about the present stage hand movement safety of a patented Robot already in the market.
Replicating morthphology of movement is one of the major problems in computation of the replication of human or any other creatures movement, one other replication method has been replication of insects movement.  By increasing the number of legs the movement of Robots have been more stable from these understandings of motion we are seeing more Robots replicating human movement. The developments of sensors and sensory stimulation has helped designers perfect this process. Also replicating Dogs have been used because dogs are already in the home and the dynamics of replicating dogs movement The study of all the movements of legs has been studied and replicated in Robots.
Brain science Podcast 2007 Ginger Cambell brainscience podcasts docartemis@gmail.com http://c3.libsyn.com/media/18369/25-brainscience-embodied_intelligence42.mp3 Works in the emergency room.
Book Studies on Brain Science Podcast by Ginger Cambell
Robots Podcast .com Celebrated 50 years of Robots this year.

Leg development
Fork Leg Robotby Kojiro Matsushita and Hiroshi YokoiThe relation between morphology and material property of a biped robot is worth to attack in the current state of the art of the field. Considering the affinity of these two aspects, we designed the robot Fork Leg Robot.
Yokoi Robot Hand I, II, IIIby Gabriel Gomez, Alejandro Hernandez Arieta, Hiroshi Yokoi, and Peter Eggenberger HotzProducted by Tsukasa Kiko EngineeringThe tendon driven robot hand is partly built from elastic, flexible and deformable materials. For example, the tendons are elastic, the fingertips are deformable and between the fingers there is also deformable material. It has 15 degrees of freedom that are driven by 13 servomotors, a bending sensor is placed on each finger as a measure of the position, and a set of standard FSR pressure sensors cover the hand (e.g., on the fingertips, on the back and on the palm).

http://www.expo21xx.com/automation21xx/17887_st3_university/1.jpg

AI Intelligence interest around the world
Research made at Tokyo Lectures.org
Claudia Wirth <wirth@ailab.ch>Artificial Intelligence LaboratoryUniversity of ZurichAndreasstrasse 158057 Zürich, SwitzerlandNathan Labhart <labhart@ailab.ch>.
“Participating countries with this scientific material were the universities below and gave access to scientific information to help them brainstorm and co-ordinate information. A distant and global teaching project included over 70 people who participated in this project.” Source video hosted by Ai Lectures rep Britta Glatzeder.
The program went as follows

Lecture 1: 4 Nov. 2003 – Intelligence: An Eternal Conundrum?Lecture 2: 11 Nov. 2003 – Cognition as Computation: Why Did it Fail?Lecture 3: 18 Nov. 2003 – Embodied Intelligence: BasicsLecture 4: 25 Nov. 2003 – Synthetic Psychology: Designing from the Bottom upLecture 5: 2 Dec. 2003 – Building Brains and Bodies: Artificial Neural NetworksLecture 6: 9 Dec. 2003 – The Emergence of Intelligence: Artificial Evolution and MorphogenesisLecture 7: 16 Dec. 2003 – Theory of Intelligence: Design Principles for Intelligent SystemsLecture 8: 13 Jan. 2004 – Intelligence Revisited: Achievements and Challenges (final regular lecture)Lecture 9: 20 Jan. 2004 – Future Trends 1Lecture 10: 27 Jan. 2004 – Future Trends 2Source https://tokyolectures.org/about/tokyolectures.org_poster.pdfBeijingCenter for Information Science and the National laboratory on machine perception, the first national laboratory of Peking University, was founded in 1986. The main research objectives of the laboratory are fundamental and applications oriented basic research in the field of machine visual perception and auditory information processing, which are essential to advance such engineering areas as artificial intelligence, robotics, intelligent control systems, management automation,The research has been focused on the basic theory and methodology for machine visual and auditory perception, voice and text recognition and natural language understanding, image recognition and image database, intelligent system and knowledge engineering, neural computational modeling and artificial neural networks, and other fundamental research topics with potential social and economical benefits.Translate this into Cantonese or Mandarin with Google TranslatorProfessor Zhou Xiaolin PhD thesis guidance the Chinese Academy of Engineering, former Chinese Vice Minister of Education Wei Yu’s
MunichThe Technische Universitaet Muenchen (TUM) holds a unique position in Europe in terms of the choice of fields it offers.the Bavarian center of scientific and biomedical research on the HighTechCampusLMU in Grosshadern
We seek to educate students as closely as possible in line with the latest scientific findings, ensuring that academic work goes had in hand with research. This is the academic spirit instilled by the great German educational reformer Wilhelm von Humboldt, and it is in this spirit that the TUM approaches its daily work.
Poland (Warsaw)The Aula Glowna – The Main Assembly Hall is situated in Building A, at the Koszykowa 86 str.Eight suggested cirrocums from this university possibly inline with Robot development • Database • Software engineering and database • Systems and Network Programming • Computing in computer networks and supercomputers • Intelligent systems for data processing • Multimedia • Multimedia – 3D animation • Robotics and multi agent systemsToykoBelgium A conference in evolutionary conferences the competition between human designers and communications of artificial intelligence in Satellites.To distinguish between biological evolution and artificial networks that are used to control robots and mimic the movement through digital networks and specialise languages to control the robots movement.
Most of this information was extracted from the Tokyo lectures accumulated six years ago between the years 2003 and 2004 so further research will have to be made for the options available today, I appreciate your input and any contributions offered will at this time be hopefully referenced and my hope is to create a recipricol link to Trash Robot.
Books
“Understanding Intelligence” by Rolf Pfeifer and Christian Scheier, MIT Press, 2001 (Paperback Edition)

AI Lab Artificial Intelligence in Zurich Switzerland and embodiment of Robots

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Trash Robot Think Tank

Inside the mind of the machine we begin to see new horizons making themselves available. Sorry scratch that the mind of clever humans who are developing new technologies and learning new Robot markup language are beginning to emerge. The dedication of grass roots individual developments and global forums is growing as technology opens its doors to the public. We walk into these doors and see not only potential ideas and future visions, but also we see inside each others worlds. These worlds are hopefully very neat and tidy and everything has its place and the land you live in provide this space or arena for you to put things, thats the recycling right?The think tank is an idea and its already happening, hopefully by now the message of recycling has been understood and the invitation to discuss these clever methods have been delivered, so with that in mind its time to move into the development of the Robot. Hopefully you have an interest in Robots perhaps you have a few ideas about digital programming and understand the ground that needs to be covered but here I will inform you of a few ideas that will hopefully help begin the brainstorm process, were going to build lists and build piles of positives and negatives. The disussion about having a Trash Robot in the home is very important.

For example there are many roles of recycling in the home and outside the home into the industry, or better still the industry adopting the robotics idea is something that will clearly need to be mapped out. Similarly even when we know the roles what are the variables and limitations of what roles a Robot can actually do and how can we expand those limitations and overcome these unwarranted no’s and no can do’s.

Fotosearch

The information making itself available is so broad its unreal here at trash Robot for the past year information, howto video’s and other supporting factors of keeping a website running have been finding there way into posts, and now I think it is time to invite the world into this Think Tank. Now I am not claiming that I have all the knowledge here or thatI am an expert in the field of anything, but I know some of you have spent time in micro sections of this broad topic. Over the past few months alone I have met face to face with people within the disposal of rubbish industry and have gratefully been contacted by people who are making robots out of rubbish and fun stuff like this, and all of this is relevant. My favourite feeling about the accumulation of posts is the change that is happening. More councils in London alone are stepping up there provisions of Municipal waste, and providing business’s with ways of separating there own rubbish as apposed to leaving the difficult job down the tip to separate the chaff from the wheat. As we know by separating, glass, card and plastic from all the little sticky bits of spaghetti we are building up a far greater stockpile of usable rubbish, and thats the biggest achievement Trash Robot.com feels part of, infact the next stage will be a Podcast interviewing various people in the feild so as we can take the entertainment level and inform you better as time goes on. The possaiblities are still endless however the problem is still by no means solved and the technological developments at a grass roots level are in no way clear. But its a lot clearer than what is was even a couple of years from today.

Another poignant point is that Robotics from the top down is an open book and the developments within Area-51 are being revealed. With video’s other websites and scientists, robot makers, trash experts and a whole number of enthusiasts are now coming out and lifting the lid on the options we have to choose from. Three clear messages emerge from my end on this and they still remain, one is cleanly ness, two is pro-activeness, three is innovative design, four is friendliness and five is all the other stuff that comes into our gaze as the veils thins of the true nature of the technological developments. This may all seem a bit confusing still, but hey hand on heart who can honestly say that online in 2010 they are not already confused. So by coming together persevering with the ideas and linking the possibilities a Trash Robot seems the obvious idea, I cannot think of any less practical reason to seriously develop a practical Robot with the tactility and sensitivity to let in our homes. Please lets keep this Trash Robot things moving and I invite any input into the Trash Robot soup kitchen.