Introduction of Karelia

The Republic of Karelia is located in the northwest part of Russia. The site is located between the White Sea, Lake Ladoga, and Lake Onega. Karelia covers an area of 172400 square kilometers and is rich in water and forestry resources. Therefore, during the period of the Soviet Union, due to the rising demand for wood in the Soviet Union, a large number of small villages and towns appeared in Karelia. Most of the residents of these villages and towns lived by logging. Due to the prosperity of logging, these villages and towns became active. However, as time goes on, the Soviet Union disintegrated, The demand for wood is decreasing. At the same time, privatization also makes the original artificial logging gradually replaced by mechanical logging. As a result, the "logging villages" in Karelia gradually begin to decline. Many of the villages with a sharp decline in population or even abandonment. Today, because of their small population and remote geographical location, the villages still have no attention from the government, their economic conditions are poor and infrastructure conditions are not satisfactory.

Eco-automata cells with three main components

Taking these dying villages as the starting point, we try to make better use of natural resources to reshape villages from the perspective of Karelia's rich natural resources. A series of new small villages with low population density and high-tech content is established. Based on the rich forest resources and water resources of Karelia, and the previous village construction mode, we name this new residential mode "eco automata cell". Human settlements change with the change of forest resources. With the help of scientific and technological means, the new residential mode is called "eco automata cell", Let human settlements always close to the most suitable forest resources for development. Numerous such "eco automata cells" are distributed in the rich forest resources of Karelia.

Landscape and construction generated by machine

We first determine the location of "eco automata cell" in the site by analyzing the large-scale map and machine learning, and then generate the simulated terrain in the site by machine learning the small-scale map, to determine how to build the building scale human settlements in the site, With the help of machinery to build "easy to build, easy to dismantle" buildings in the forest, with the different ecological conditions of the forest, forest rangers can transfer in the forest.

Based on such "Eco Automata" and blockchain thinking, we put forward his operation mode, that is, "Eco Automata" is regarded as an investment, investors can invest in it, and the funds are used to maintain the operation of "eco Automata". Local villagers are the conservationists of "eco Automata", and they can make use of natural resources to obtain economic value, and the economic value created is owned by local villagers, and investors will get the return if the eco-automata ecological condition is maintained.

Landuse in machine version

Wood structure built by eco-automata on the landscape of 250×250m.