A nanobot capable of collecting sophisticated data (such as body characteristics, location, etc) and transmitting it to a central location, working independently in someone’s body (I guess floating in their bloodstream) does not exist. The technology to get us even CLOSE to that doesn’t exist.
The patent is very interesting, but almost immediately we come to the paragraph illustrating challenges they have. See below:
Challenges
The development of a fifth generation of nanotechnologies faces several challenges. First, the manufacturing of nanoparts is difficult. Second, the assembly of nanoparts into functional devices is a major challenge. Third, the control and management of nanosystems is complex. Since physical properties operate differently at the nano-scale than at the macro-scale, we need to design systems that accommodate these unique physical forces.
The problems to identify include how to:
• Build nanorobots
• Connect nanodevices
• Develop a nanorobotic power source
• Develop nanorobotic computation
• Develop specific nanorobotic functionality
• Develop nanorobotic communication system(s)
• Develop multi-functional nanorobotics
• Activate nanorobotic functionality
• Develop nanorobotic computer programming
• Develop an external tracking procedure for a nanorobot
• Develop an external activation of a nanorobot
• Develop a hybrid control system for nanorobots
• Use AI for nanorobots
• Obtain environmental inputs via sensors Developing Solutions to these Problems
All of these above things still need to be completed, including, how to build a nanodevice. The patent is on the design, but they still don't have the technology capable of making any of this happen. We are a long long way from this becoming a reality, strictly based on technological advances.
It's not about being told, it's about my experience working in the tech field, and my education on the possibilities of computing technology and engineering. Nanobots being injected into the human body and operating at such a significant scale is actually impossible, currently.
Whatever big tech is working on covertly behind the scenes isn't so secret that nobody knows about it. If Big Pharma is trying to use this technology, Apple, Google, Intel, TI, all the big tech companies would either know about it or have some hand in developing it. If they had the capacity to product something this sophisticated, they'd be commercializing a user-opted in version of this long ago.
Tech at this scale just is not possible, by a longshot.
I might have to suggest the same for you.
A nanobot capable of collecting sophisticated data (such as body characteristics, location, etc) and transmitting it to a central location, working independently in someone’s body (I guess floating in their bloodstream) does not exist. The technology to get us even CLOSE to that doesn’t exist.
The patent is very interesting, but almost immediately we come to the paragraph illustrating challenges they have. See below:
All of these above things still need to be completed, including, how to build a nanodevice. The patent is on the design, but they still don't have the technology capable of making any of this happen. We are a long long way from this becoming a reality, strictly based on technological advances.
It's not about being told, it's about my experience working in the tech field, and my education on the possibilities of computing technology and engineering. Nanobots being injected into the human body and operating at such a significant scale is actually impossible, currently.
Whatever big tech is working on covertly behind the scenes isn't so secret that nobody knows about it. If Big Pharma is trying to use this technology, Apple, Google, Intel, TI, all the big tech companies would either know about it or have some hand in developing it. If they had the capacity to product something this sophisticated, they'd be commercializing a user-opted in version of this long ago.
Tech at this scale just is not possible, by a longshot.