I have the privilege to speak with many brilliant people who understand the current situation from different viewpoints. Next week I will be airing on my show a fantastic interview with weapons expert Mark Steele from the UK. I finally got to ask him so many questions I had for him regarding the metals in the C19 bioweapons and the polymers used for military purposes. This is what inspired me to post this substack article. From a military perspective, what we are seeing in the blood is right out of their textbook. Smart dust was predicted in 2007 to be the cornerstone of military battlefield by 2025, which is just around the corner. Many people understand that right now we are in World War 3. The weapons used are invisible self assembly nanotechnology that is injected through vaccines, sprayed on us via geoengineering, poisons our food and water supply. Smart dust is the same thing as nano robots and biosensors that I have been showing in the human blood and are used for intra body area network. We are the battlespace, and so is the environment. Via bidirectional telemetry, monitoring, assessing and modulating via frequencies, we are under surveillance and these weapons systems have mass casualties as a consequence, known as contributing to sudden vaccine deaths and increased mortality rates. With that in mind, read this document from 2007, discussing the warfare waged on us.

Would irregular warfare described below be warfare directed against the civilian population? You can see the work of Charles Lieber is quoted even then, a popular name now in relationship to the nanotechnology. This document also proves that WBAN did not come from the IEEE, but was developed by the military in their smart dust surveillance system that already discussed biological surveillance as well. Genetics, nanotechnology and robotics are the weapons implicated now.

In 2025, the military’s need for persistent surveillance applications will extend beyond current airborne platforms such as Global Hawk and Predator. The future of 2025 contains potential enemies with a material and information focus capable of conducting regular and irregular warfare on foreign lands as well as the continental United States. The U.S. military must invest its energy and money today into researching enabling technologies such as nanotechnology, wireless networks, and micro-electromechanical systems (MEMS). Nanotechnology reduces today’s technology to the molecular level. Wireless networks can link people, computers, and sensors beyond the borders of nations without the need for costly hardware-intensive infrastructure. Finally, MEMS have the capability to act as independent or networked sensors. Fused together, these technologies can produce a network of nanosized particles — Smart Dust — that can be distributed over the battlefield to measure, collect, and disseminate information, Smart Dust will transform persistent surveillance for the warfighter. The U.S. military should lead the research and development of these enabling technologies so that Smart Dust will be a viable application by 2025.

Throughout military operations, intelligence of the operational environment dictates the level of mission success or failure since it shapes the decision-making process of military leaders. “By ‘intelligence’, we mean every sort of information about the enemy and his country—the basis, in short, of our own plans and operations.”2 According to joint doctrine, “…the fusion of all-source intelligence along with the integration of sensors, platforms, command organizations, and logistic support centers allows a greater number of operational tasks to be accomplished faster, and enhances awareness of the operational environment — a key component of information superiority.”3 Without doubt, future warfare requires information superiority.

Therefore, to develop, benefit, and prepare for uses of future intelligence technologies, United States military leaders must understand the contexts of current enabling technologies including their possible capabilities and their limitations. “The future GNR (Genetics, Nanotechnology, Robotics) age will come about not from the exponential explosion of computation alone but rather from the interplay and myriad synergies that will result from multiple intertwined technological advances.”4 In this complex system-of-systems world, combinations of enabling technologies produce powerful and effective technological applications. One application, from the fusion of nanotechnology, wireless sensor networks, and microelectronic mechanical systems (MEMS), is Smart Dust, networked molecular particles capable of measuring, collecting, and sending information remotely.

The combination of nanotechnology, wireless sensor networks, and MEMS forms a new meaning to network-centric warfare while creating a new application of persistent surveillance beyond current systems, such as Global Hawk and Predator. This combination, Smart Dust, creates a wireless network of nanoscaled sensors, called motes, across a battlespace, like dust on furniture, yielding real-time information about enemy or friendly movements, habits, and intentions.

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