User:YaqiYang
Contents
Blog 1
Part A
Prompt
Go to thingiverse.com. Use any means you like to look through the objects submitted to thingiverse and pick out 5 designs which you consider to be the most:
1. Useful
2. Artistic/ beautiful
3. Pointless/ useless
4. Funny/ weird
5. Scary/ strange
Link to the 5 objects you’ve chosen, and discuss why you consider them well described by the 5 adjectives above
1. Useful
http://www.thingiverse.com/thing:26489
This is an iphone case. I think this is one of the great motivations for personal 3D printing that make life easier. It is good looking and cheaper than the commercial ones.
2. Artistic/ beautiful
http://www.thingiverse.com/thing:29159
This is a really cool and beautiful design with Ballerina Charm
3. Pointless/ useless
http://www.thingiverse.com/thing:23289
I suppose no one would suppose to use this
4. Funny/ weird
http://www.thingiverse.com/thing:27826
This rabbit image from Disney make me so happy
5. Scary/ strange
http://www.thingiverse.com/thing:25238
I just think we should prohibit the gun shooting.
Part B
Prompt
Read this article:
http://www.salon.com/2012/12/30/the_tinkerers_how_corporations_kill_creativity/
Watch this video:
Charlie Rose interviews a successful Designer
http://www.cbsnews.com/video/watch/?id=50138327n
From jigsaw puzzles to plastic models, from Rubik’s cube to work design structure, I always enjoy breaking things apart and, of course, putting things together. Born in a family of doctors and engineers oriented in pharmaceutical industries, my curiosity of how things work runs in my blood. From an early age when my parents operated a pharmacy, I always sat beside my mum listening to her talking with patients and went to pharmaceutical company to find out how pills are made of. The influence of corporate culture on tinkering impede the development of innovation, invention, and illumination. The corporate culture could not provide an environment for Tinkers to make the world better.
The Stanford University have the synphasis of art and engineering. it's idea is equivalent with the David Design Principle. David infused Design Thinking applying human behavior into design which allows people design based on the others' idea and reach the height they want to be, and also let other's make the design better. The key to unlock the innovation and creativity is that David approach diversified background people into his firm and let them get brain-storming, the right through the idea, the execute product. This is the key to unlock the innovation, creativity, and illumination. He ask people to be a design thinker and encourage wild ideas. A good design is based on figuring out what people want to have by watching their behavior. (try to understand people through observing them). He have the 3D printing machine with his daughter. Concerning project we do in the lab, we could based on David's design principle to design staff useful, ergonomics, and make life easier and better. Just like last week we print out a useful key chain.
Blog 2
part A
The “Mother of all Demos” is here: http://www.youtube.com/watch?v=JfIgzSoTMOs First, watch that first section of the mother of all demos (above), which includes the first computer mouse and cursor ever seen in public. Do you recognize the rough features we use on every computer today in its earliest form? Are you impressed by what he’s demonstrating? Do you think that you would have recognized the importance of this work if you were in the audience at the time?
Engelbart’s presentation is a hypermedia demonstration which paved the way for human-computer interaction. In his presentation, Engelbart showed how the computer could be used to deal with everyday tasks. He showed audience how to create the new files and a set of commands to organize the data. Taking an example of his wife’s shopping list, he organized the shopping list hierarchically by category and he had the ability to expand and move items to organize them as he want. These features are similar like the mouse we use nowadays. The pointers following as he moved the mouse until he stops at a specific point. The cursor looks like piano keys on his left hand, using the cursor he could type out the characters similar like the keyboard we used now. This part impressed me most, through the mouse and the piano keyboard, the research team could type input and manipulate the computer and organize the data. The first computer weighted 30 short tons and took up 1800 square feet, as an audience sit in the presentation, I think I would be realize the importance of the creation by Engelbart’s research team, because the creation of the mouse and the cursor could facilitate the collaboration between humans. They could make control computer easier and organize the data more efficiently through a monitor and a mouse instead of controlling a bulky staff weighted 30 tons.
part B
Then watch this (turn up your sound): http://www.youtube.com/watch?v=Wbl7JEJNTJM In it, Professor Richard Doyle discusses disruptive technological change, open source, knowledge sharing, and ‘creative culture’ among other things. The first 22 minutes is his talk, while the rest consists of questions and chat. What does he say regarding the initial perception of the mother of all demos? Doyle makes a number of arguments regarding the importance of our open source efforts in comparison to models requiring intellectual property. Why do we and why should we share the information we generate? (Or shouldn’t we? Are we missing out by not trying to patent our efforts?) How might we better share our knowledge?
At the time of the presentation, people thought the demo was a hoax.
Concerning about the sharing information, I think sharing knowledge could make the progress of the society. There are many reasons that could prove the importance of the creation and application of new knowledge. Innovation and creativity is also the motto that Obama addressed his speech centered on the manufacturing of his presidency competence. I think sharing the knowledge and allow followers to make refinement could serve the human to a new level. It is undeniable to say there are tons of law suits about patent and intellectual property. I would like to apply different situation to different methods. If people could understand that sharing their knowledge helps them do their jobs more effectively; help them retain their jobs; helps them in their personal development and career progression; rewards them for getting things done; and brings more personal recognition, then knowledge sharing will become a reality. Some people object to sharing as they feel that others will steal their ideas and reap the rewards rightly theirs. This is a fallacy. Knowledge sharing isn’t about blindly sharing everything; giving away your ideas; being open about absolutely everything. You still need to exercise judgment. If you have a great idea – don’t share it with a competitor – external or internal but on the other hand don’t try to develop it on your own and don’t sit on it for fear of it being stolen from you. Figure out how you can bring it to fruition by collaborating with other people.
blod3
3D printing in civil engineering
Concrete Printing Process could create a new era of architecture that is adapted to the environment and fully integrated with engineering function. According to the Maslow’s pyramid’s human needs, shelter as the base of the pyramid embody its essential effect of the human needs. In 21st century, 1 billion world people are now tortured under the risk of disease, crime, and over population. The problem of conventional construction is the most serious problem. Behrokh Khoshnevis pointed out that most of products are automated except construction which is slow, inefficient and may be dangerous to workers. The CAD/CAM is a great development to transfer from hand-made to automate by addictive manufacturing. It is undeniable to say that the application of 3D printing in construction would revolutionize the coming construction. However, I have my reservations about that addictive manufacturing applying to construction instead of conventional construction. The first point is that the 3D printer is too expensive to countries which are highly under the risk of disease, crime to purchase. The governments do not have the ability to hire the scientists and technicians to run the machines. Countries would like to develop 3D printing to construction normally with low risk of dangerous laboring. If these governments take 3D printing instead of conventional construction, they would deprive of jobs from people make a living by manual labor. The result would cause the instability of society, and people would hard to make a living. The second point need to be pointed out here is that the technology for 3D printing is immature. If the extruder does not work, scientists need to take the extruder out and fix them; the labor cost would be really expensive. Furthermore, we need to reprint the whole building again if minor mistakes happened during process. The cost of the 3D printing would much more expensive than conventional construction.
3D printing in medicine
I am highly impressed by the 3D printing technology applied into the medical field. I think this technology could save more people’s live. As the article said that the 3D printer might print a kidney use the patients’ cell tissue which would not cause allograft rejection. Even though developing functional organs may still be a decade off, we are moving toward to possibility to make them came true. Scientists need to develop the technology of “ink” as the filament we sent into the extruder and also need to figure out the way to keep the organs alive. Thousands of people dying off organs problem, if this technology could be reach, people do not need to spent much time on finding a fit replacement.
3D pinting in food
The 3D-bioprinted meat uses the same process scientists have studied for printing organs in medical field. The Modern Meadow offers the hamburger is so expensive even though this idea is really awesome. Actually, I do not recommend 3D printing technology applied in food as much as in medical field. Because the technology could save people’s live and easily create organs as replacement instead of trying to find a person like to transplant a kidney for you. However, human, as on the top of the food chain, we should eat animal’s meat to harmonize the balance of the food chain. If people would eat meat printed 3D printer through cultivate stem cells, and stop killing animals, there might be a miserable environment unbalance of the nature. In order to keep the harmony of the nature, we still should stick on the life we live in now. However, I like the article that the 3D printer print chocolate because I really love eat chocolate especially when it with diversify shapes. I think technology applied into chocolate industry could allow customers involve into the design, the customerization could bring more economical benefit to the firm.
3D printing in fashion
Iris Van Herpen with the most inquisitive mind has been exploring advanced ideas with the help of scientists, architects and 3D printing. I think the beauty of the art and fashion is innovation and not afraid of being expressive. She turns the imagination into reality and gives us a chance to see the beauty of the arts.
3D printing in gun
There is a huge problem that the 3D printer could print everything, and the 3D printed gun has already a reality. I doubt with the advance of the 3D printing technology, there might also increase the criminal rates. Criminals could print gun without buying from legal association and take the training of safety. Government would be much harder to execute the gun control. The tragedy that 20 children got killed in school, and then President Obama proposed the policy to to gun control. people should live in a society with trusted government and safe place, if the 3D printer made the illegal criminal easily commit crime, this is the tragedy we do not expect.
blog 4
3D printing help kids who had amputation of hand digits and could not afford the X-finger
In the article: robohand:how cheap 3D printers built a replacement hand for a five-year old boy made me realize the value of open source on thingsverse.com. The story of Liam who got amputation of hand digits before birth and cannot afford the expenses of X-finger is lucky enough to get the help from two men-- Ivan Owen and Richard Van As –from the opposite of the globe, and Liam finally can have a prosthetic using a 3D printer. Owen and Richard make the design public and help people who can’t afford prostheses. Oven and Richard prove that there are people who don’t care about monetary gains but the good of mankind The key success of their designing is that they both have their own 3D printing machine at home from Makerbot which accelerate the design cycles ; The pervious two weeks now reduce to just hours that send a code and then print them out. The 3D printing machine could print functional parts apply to the prostheses without waiting a long time. It is much more efficient to test the idea and modify it quickly. The speed is key to the success. They could generate new ideas and test the products as if they receive the code. The speed could motivate people to be innovative Furthermore, the custom manufacturing would not need additional cost, accordind to the article, they could use metal material to help Liam print a new prostheses with the 3D printing machine.
Open source
I really appreciate the benefit open source bring to the mankind. With the open source, Oven could use OpenSCAD to design code, and take advantage of the thingsuniverse materials. In the note from Ivan, he promise that the signs they develop would be shared with the public as open-source documents. They would not patent the designs and would also keep working on this project in order to avoid others patent the designs. Their dream is to share the knowledge and spread the information make that as many people as possible be able to benefit from it. I now understand the difference between the open-source and corporate culture. I think people should not patent stuff that could help human beings better.
blog 5
In the article of ‘what’s the Deal with Copyright and 3D printing’, the author addresses the relationship of the intellectual properties which are copyright, patent, and trademark. According to the definition from Author that the “copyright covers creative works, patent covers technical works, and trademark covers the ways in which goods are identified in the marketplace”. The 3D printing merges the physical and the digital world and also bring problems that the how to protect the copyright on Thingsverse. Sometimes, products not protected by copyright because they are the type of “useful products”, and the copyright infringement is also hard to break.
A) Concerning my first blog, the useful part I choose is an iPhone case. I think it is protected by copyright. However with the popularity of the iPhone case, they are not patentable and are not protected by copyright, because they belong to the “useful” products. The beautiful part I choose is a ballerina dancing girl. I think it is neither protected by copyright nor are patent-able. For the things of the useless, I cannot decide the utility of the product, so I could not decide whether it is copyrighted or patent-able. For the funny Bugs Bunny, the characters from movies or TV are definitely copyrighted. For the Gun staff, I think it is a physical product so it is copyrighted, and it is not patent-able.
B) Other people’s things: Electric Motorcycle from btz5006, I think it is related with the utility, and it is copyrighted by the creator, and I think it is not patentable.
===Bonus Blog===First bonus blog
3D printing would transform education
bonus blog
http://www.forbes.com/sites/tjmccue/2011/11/01/3d-printing-will-transform-education/ People was criticized the existence of the computer, never mind that the computer now on every desktop. I believe that in the near feature, the 3D printing would on the desk to help students to learn science principle. I think it's creating a Renaissance in manufacturing and the design world because even the average person can use it. From the article of 3D printing in education (http://www.stemulate.org/2012/07/19/3d-printing-education), Penn State University has already brought the RepRap research into classroom and also I believe the future of higher education is reshaping universities through 3D printing. The Delamare Science and Engineering library became one of the first academic libraries in the United States to provide 3D scanning and printing to all students and faculty, as well as the public. The move is part of a plan by director Tod Colegrove to transform the facility from a typical library that promotes knowledge through books to one that also encourages creative thought and discussion via hands-on technology. For many universities, 3D printers have become an indispensable asset for promoting learning and education. At Columbia University's Graduate School of Architecture, Planning and Preservation, the devices are considered a regular tool in student's everyday lives. Carlito Bayne, the manager of the GSAPP's Output Shop, says “the school has dabbled with 3D printers since 2000, including one that used wax. Their printers get so much use that the school is purchasing another machine. Other departments such as the fine arts, medical and engineering schools have their own 3D printers. “During presentations most students have models as well as renderings to show the design process," Bayne said. "It shows the students and professors what works structurally and what just looks good. This is something that a 2D render or drawing can't do because you only have one view. " At the Massachusetts Institute of Technology, students such as Steven Keating are using 3D printers in cutting edge ways. The mechanical engineering student describes 3D printers as a valuable research tool because they can help accelerate projects that would normally take time using conventional modeling methods. The technology also helps democratize processes that may be too technical for the average person when done the traditional way. The materials on Thinsverse is valuable. there will indeed be a 3D printer on every desktop in the United States. With a community focus, there are many passionate users and fans that will likely help them make that vision a reality.
