In some visions, the cereal can be two species. While those plants are growing. They can have the same ability with sundews. They can eat bugs, and when those plants are ready they can transform into normal cereals. The idea for this xenomorph vegetable is that by connecting two DNAs the researchers can create a vegetable that can turn into another vegetable when farmers need to reap it.
The ability to manipulate the DNA makes it possible to create new types of crops. Those crops can create antibiotics while they grow or they can be poisonous while they are green. When they turn ripe, those artificial crops can remove their poison.
Biotechnology and advanced nanotechnology make it possible to create new biological products. The next-generation artificial crops can use to make things like medicines. Or by making hybrids with things, like hemp and the cells that make the spider web. This thing makes it possible to create next-generation ropes that are stronger than steel. That is one version of what intelligent nanotechnology can make.
In some visions the biotechnical furs and skin replace animals. The ethic skin means animal skin made of cloned skin cells. Those skin cells will produce in a petri dish. And they can use a similar way with "natural skin". Another thing is that the same technology can use for producing skin transplants for humans.
"Barath Raghavan, an associate professor at USC Viterbi, is pioneering “computational agroecology,” a novel approach to sustainable agriculture that utilizes computational tools to design diverse, optimal farming ecosystems. The researchers have conceptualized agriculture as a search through a “state space,” which comprises all possible configurations of a system, such as a farm, enabling farmers and researchers to explore, simulate and find optimal combinations of various factors like crop selection, soil type, weather conditions, irrigation, and pest control, potentially revolutionizing farming planning and techniques". (ScitechDaily.com/Computational Agroecology – The Future of Farming)
The miniature robots that can use to clean plantations from bugs are poison-free application that uses AI to control the nutrients and water of the system. The AI can use small-size robots to keep harmful bugs away. Or the system can use microchipped ants and other cyborg bugs to clean the plantation.
One thing that makes miniature robots suitable for protecting plantations is that they are multi-use tools. The robot can clean fungus from grain stalks. And the same system can remove all bugs that can danger the plantation.
AI is an ultimate tool when the system must control large entireties. The AI can observe things like plantations with very high accuracy. The top level of these kinds of visions is the entirety. Nanotechnical computers can observe the things like poisons and water levels with nutrients from every single grain of straw.
The nanocomputers can be driven to the leaves of those straws. And they can use the flow in the grain straw veins as a power source. Those nanotechnical computers can look like small bugs that push their legs in the veins. There are small water wheels that give energy to those robot mites. Those systems can communicate with each other by using laser LEDs. If there is enough large number of those miniature robots the system can observe every single grain of straw until the grain is cut. Before the reaping the system calls those miniature robots away.
Comments
Post a Comment