This is the last article in the System X series which I have been covering since Oct 2018. A product of 10 years of research which took me right across the world, it has certainly been an eye opener both in terms of what goes on and what can be technically achieved. In my travels I have talked to a wide variety of people, tracked … Continue reading System X: The Summary
The last article in this series introduced the simple notion that the Planck length places an absolute limit on the lower energy of a Photon, that there is a connection to the Mass of a charged particle, different charged particles produce different flavours of Photons and that, as a result, there exists more than a single spectrum. In this article, I will expand upon this … Continue reading Electromagnetics: Quantum Ohm’s Law
The notion of using an analogue TV transmitter signal as an illumination source for a radar may seem like an advanced topic, but such bistatic arrangements using commercial sources were among the first ever radars developed. Prior to WWII, one of the first radar experiments in the UK employed a BBC transmitter to detect a bomber at a range of 12Km: The concept of passive … Continue reading Analogue TV: Nationwide Passive Radar and Imaging
In tradtional teachings of electromagetics we are told there is a single spectrum and there are photons of particular wavelengths/frequencies. In a previous article, I touched upon how this view of wavelengths/frequencies was misleading as its a reference to the group motion of charged particles, rather than the photons themselves. But what if I told you there were potentially countless trillions of electromagnetic spectrums? I’m … Continue reading Electromagnetics: Quantum Spectrums
One of the things that has bugged me for years with System X is this ground penetrating capability. How exactly do you get millimeter waves and above to penetrate over 50 meters, or more, of soil, metal, water and then all the buildings and people on top of that to track a cluster of neurons in a moving object like an underground train? It sounds … Continue reading System X: A Theory on Weakly Interacting Photons
The last article introduced the potential for 5G at higher frequencies (42GHz+) to be used for microwave tomography of the human brain at wavelengths approach that of fMRI which has been successfully used for decoding brain activity. This led to a broader examination of the 5G spectrum and its potential for abuse by Passive Synthetic Aperture Radar in orbit. A quick scan of the web … Continue reading 5G: Nation-Wide TSA Style Naked Body Imaging
Throughout the System X series, one thing which constantly pops up is 5G deployment globally as a mind control system. I dismiss this because of a number of factors ranging from maintaining the required power density in the far field, to the lack of required beam steering and gain tolerances. This said, while writing is certainly not its forte, how about reading and what are … Continue reading System X: The 5G Connection
If you are an occassional observer in the field of brain computer interfaces, reading this series may have you questioning some of the basics. For example, can radar be used to read functional information from the brain suitable for a BCI? Its a reasonable question, but one I often take for granted because of the amount of time I have been research classified variants. In … Continue reading System X: Radar Based Brain Computer Interfaces
The System X series, so far, has discussed the technology, capabilities, goals, history and some of the key players. Missing from this is a discussion on how microwave radiation interacts with the brain and body. Without this critical element, System X is not realisable as a technology. In this article, I will explore current science in this area and demonstrate how the interface functions. When … Continue reading System X: The Interface
If you have ever played around with Deep Learning, or neural networks in general, then you will have noted the esoteric and opaque nature of the various forms of algorithms. In addition, manual intervention is typically not possible given the lack of knowledge of how things are wired internally and the relationships. The developers at Snasci came up with a different approach to the problem … Continue reading Artificial General Intelligence: Minkowski Particle Collision Classifier
DeepThought News 