Abstract
Climate change has posed a new challenge to urban planning. Now it's hard to exclude climate change in urban planning. To prevent climate change, we need to move away from current energy methods using sustainable development and new technologies. What I noticed was the sun. The sun is everywhere and given to everyone. It is also expected to create city that conforms to UNSDGs by producing renewable energy called solar energy. Developed cities are to collect solar heat by attaching a transparent solar panel (TSP), a laminate with transparent solar panels, inside a building formed by glass. By using TSP, it has supplemented problems such as oxygen and humidity, shortening of life expectancy due to organic materials, aesthetic problems, and inefficient spatial layout that were present in current solar panels. In addition, the energy efficiency generated by TSP's power generation technology could help provide a smoother supply of electricity to homes and businesses, as studies have shown that coating the entire glass surface of the United States, 5 ~ 7 billion square meters, produces an additional 100 gigawatt power. In addition, surplus energy after use can be utilized by introducing a system called swytch token. Swytch tokens will have a positive effect on increasing the number of people who want to produce and consume them with a system that rewards those who produce renewable energy with economic value. To provide economic rewards, there is a Proof Of Production (POP) system that proves that energy is produced, and blockchain, a distributed data technology that stores data in blocks and links it to chains, replicating it to numerous computers at the same time. Blockchain use allows users to disclose transaction details without storing them on a centralized server, which reduces falsification of data, increases transparency, and allows them to pay tokens to computers, store and use them. It will be presented as an example of a leading advanced city that can incorporate blockchain and virtual currency into cities. In the case of developing cities, however, not only are there not enough skyscrapers to use TSP technology, but also lack housing supplies, making it difficult to supply and demand energy. To compensate for this, 3D printing is used to create dwellings and attach TSPs. New story and ICON, which make housing used by 3D printing in the U.S.A, unveiled prototype housing, which is built based on international architectural law and lasts longer than standard concrete bricks, and boasts excellent economic feasibility with a 24-hour price of $10,000. Already in the case of Haiti, Bolivia, El Salvador and Mexico, more than 800 homes are known to have collaborated with the community, using local labor and materials without supplying materials abroad. Based on these examples, organizations such as international organizations and NGOs can establish 3D printing houses and link them to 3D printing houses using TSP technology, not only the housing problems of poor and refugees but also the culture, characteristics and traditions of each community can be specialized. Most of all, as the price of solar-related technology is falling, it will be a little more common technology in the future. It is necessary to build a sustainable smart city considering climate change in developed countries by using smarting technology. Developing countries need to create developed cities that deliver new hope to the poor. Referring to the cases presented in this abstracts, I would like to devise a new project under the theme of smart urban planning considering climate change.
