How to make effective and independently operating nanorobots?

 

 

 

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How to make effective and independently operating nanorobots?

How to program nanorobots?

Making programs for controlling nanorobots is problematic because the small size of those machines is giving limits for processors. The technology, what can be used might be similar, what is used in microchips, what is used in credit cards. Making the control protocols for the extremely small robots can happen by using C, Java, Python, or some similar programming language, which is using effective syntax with minimum memory usage.

The architecture of the computers, which are controlling those small drones might be similar to larger computers, but requirements of effective memory usage and power economy are necessary for the inorganic systems that can travel in human veins and search things like tumors or blockage. The operating system can be the lightweight version of Linux, where each operation of the nanomachine is made by using the sub-programs.

So every part of the operation of the nanomachines is stored as an independent program. When the robot is finishing a certain part of the operation, the operating system calls the second program, which involves the next part of the operation. That thing helps to keep the memory-use in as effective as possible.

If the neuron can be installed on microchips, they can make the data processing of nanorobots more easily than processors can make today. And using cloned neurons can be made the half-organic extremely powerful computer. And if the signals can be driven through the neuron, that thing would make many advantages in nano- and mini technology as well as in mobile and other devices. That makes it possible to create nano-size powerful computing units, which are suitable in many roles.

What is the difference between nanomachine and nanorobot?

The nanorobot is a robot, that can be very small. The controlling of those robots can be made by using radio waves, but the effective small-size power sources and RFID-based mass memories are allowing make the more independently operating nanorobots. The power source of the nanorobots can be a gold bite, what is connected to iron, what is allowing to make a small and quite effective battery.

Nanomachine is like the molecule, what mission is to make precise missions, like carrying the medicine to the right cells. For that purpose to those molecules will connect enzymes, which makes the own cells of the body transport those molecules to the right cells. The nanomachines can be made by using the cells, where is implanted the wanted DNA bite, which makes the cell produce the wanted enzymes.

Programming the biological nanorobots

Biological nanorobots can be macrophages, that are grown in cell cultures. Those cells whose purpose is to feed macrophages can be harmful bacteria, which are marked with certain antigenes. If those antigens are put on the cells of some harmful algae, the macrophages can attack against those cells, and that thing can make the ability to clean polluted water and remove unwanted cells from the body. Also, things like implanted microchips can use to control the cells, which are used as the biorobots.

Using the synthetic DNA the bacteria or every other cell can turn to make every kind of enzyme or operation. In some scenarios, the genetically engineered bacteria can inject into the veins of a patient, whose veins are injured. Those bacteria would travel to injury and then the certain sound will break the crystals in those cells, what is transferring them to cels, what are forming veins or some organ. So that thing can be the way to cure injuries in tomorrow.

https://neurosciencenews.com/neuron-signaling-pathway-17894/

Image: https://theconversation.com/meet-the-nanomachines-that-could-drive-a-medical-revolution-58107