New nanotechnology makes it possible to hack computers, even if they are off the internet. The cyborg bug or small robot can carry a microchip to the microcircuit. And then, the system can put that microchip on the wire or microprocessor.
The microchip can record and transmit information to the relay station that resends to the satellites or the internet. Even if that microchip doesn't have powerful data transmitters, the system can use a chain of miniature relay stations that transmit data to the drone or a fixed station that can be a cell phone that communicates with those microchips by using BlueTooth.
Those microchips can also transmit electromagnetic impulses to wires. And they can use to deliver computer viruses or spyware to polluted computers.
If we think of the traditional locking system. The AI can easily make copies of the physical keys. The AI-based camera just photographs the keys, and then it can measure the length of the key. The system can also use sonar or laser scanners. And then, it can transmit that data to the CAM (Computer-Aided Manufacturing) system.
That system can involve a 3D printer and machine tools. There is the possibility that the attackers have laser systems that they can use to finish the job. Modern burglaries can work for governments. And in that case, they can have high-tech support systems.
The fact is that the wrong microchips can cause a very bad situation. There is a possibility that those microchips are equipped with logic bombs. In that case, those systems can deliver computer viruses to the system. Or they can transmit information that flows through them to a third party.
And even if those microchips don't carry malicious code to the targeted system. They can cause very big risks. If hostile forces know the resonance frequency of those microchips. They can use acoustic weapons to make physical damage to microchips. That causes oscillation and breaks the core of the microchip.
The data security of tomorrow must base the solutions that are hard to break. When we think about things like electronic locks there is the possibility that in the future, cell phones with biometric recognition systems can use to open electronic locks.
But when the telephone communicates with locks it must use a very fast algorithm. The recognition algorithm can be unique. And that makes it easy to track the device. That code is used for authorized access in physical or software-based systems.
The burst of code, hidden in empty code makes it difficult to steal the key. When the telephone starts transmitting it sends an "empty code". Then the key code is hidden in that message. The next-generation systems are not just denying access. It stores the unauthorized keys in memory, and that defender can find out where the attacker stole the code.
https://scitechdaily.com/the-security-system-of-the-future-electronic-devices-could-use-logic-locks-to-fend-off-malicious-attacks/
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