About SDC – Space Defense Command

“For as Arithmeticians teach to adde and substract in Numbers; so the Geometricians teach the same in Lines, Figures (solid and superficiall,) Angles, Proportions, Times, degrees of Swiftnesse, Force, Power, and the like; “- LEVIATHAN, By Thomas Hobbes of Malmesbury. Paris APRILL 1651

Space Defense Command (SDC)

*Note New Developments in Rocket, Satellite and UCCA of 5.07.2022 two pages below

SDC connects with global networks and their sources of data, research, development and security measures. Research and Development of advancements in Air, Space, Cyberspace, Defense, Energy and National Security, and the role of Bioengineering, Nanotechnology, Deep Tech, A.I. ICT, Game Theory, Singularity, and Quantum Computing.

SDC operates as a missions control space station responding to the challenges in air, space, cyberspace, sea, and land. Like a space station, International Space Station (ISS), SDC works in unison with ocean, ground, and space control commanders.

Challenging Heisenberg’s Uncertainty Principle, SDC can observe both the position and velocity of a target in real time with cutting-edge technology. Blueprints include strategic plans to engage with both past and rising superpowers. SDC designs of model prototypes are ready for testing.

Maritime Law is not measured in the same way as Land and Air Space Rules of Engagement. There are no frontlines. There are no space restrictions. In its stealth plan, SDC can remotely navigate the ROV SS Matlock across oceans submerging in deep water quietly rising in proximity of land. Yet, unlike knot speed, its counterpart, the UUV SS Matlock can take flight at astronomical speeds and fathoms.

Structured form of ISS is in dual sectors governed by the Russian Federation and the United States providing program access to space agencies from five earth affiliates: Russia, U.S., Canada, Japan, and the European Space Agency. SDC structure is in multiple sectors governed by private affiliates.

ISS is said to operate in a tri-fold capacity: observe, laboratorial, and industrial. The purpose of the ISS is reportedly to provide laboratory space facilitating research in multiple science fields for human and earth applications structurally equipped for proposed Moon and Mars missions consisting of spaceship and systems tests.

In line with the ISS, SDC has observatory capacity monitoring scientific findings and applications on earthlings from the ISS and independent space stations. Presently, unlike the ISS, SDC does not conduct laboratory experiments nor aims to be an industrial unit. SDC research and missions are not restricted to those of ISS and include discoveries of other government space stations or private modules.

SDC assesses the developments of the ISS, since its inception alongside the advancements in science and technology. SDC develops strategic alliances with Astronauts, Defense, Military Leaders, Personnel on Active Duty, Veterans, Government Officials, Private Industry, Scientists, Engineers, Developers, and Information Communications and Technology (ICT) experts.

NASA’s four year goal is returning to the Moon and new mission to Mars. SDC observes NASA’s alliance with private industry’s reported failures and successive “joyriding” attempts of the space travel industry.

SDC has considered what a former NASA Astronaut Colonel Frank Borman sees as three ingredients when pursuing missions: “Goal, $, and support of the country.” Otherwise, you’re just there to “collect rocks.” Colonel Borman “was assigned as Commander of the third manned Apollo flight [and] Commander on the fourteen-day Gemini VII mission.”

SDC Commander is in agreement with Borman’s response as to making successive missions to the Moon. Why? “Mission Accomplished.” SDCs research and missions go beyond the realm of earth’s orbit, Saturn and her moons and other galaxies, into Deep Space.

Data collection and analytics yield analysis reports, policy proposals, and threat assessments addressing national security and the impact for humankind and animalkind.

SDC leverages advancements in Space, Cyberspace, Defense, Energy, National Security, and the role of Deep Tech, A.I. ICT, Game Theory, Singularity, and Quantum Computing.

Operating as a Primum Movens, SDC utilizes satellite communication and network systems data. Situations are accessed, locations calculated, parameters examined and players moved. Utilizing multi sensors and laser beam focus, SDC zeros in on intended targets and those in proximity.

SDCs new designs with imminent prototypes include a tracking device and multi-laser system: The ViathanTrkr© will track, mobilize and veil the targeted object or resource, securing it for subsequent retrieval. Młock1©, a hypersonic aircraft is equipped with a diode and a quantum cascade laser set up to recover target, mount it and lock it onto the aircraft.

Development of hologram technology had been reserved for defense and security but is no longer cost-prohibited for commercial use. As a countermeasure to competing forces, Młock1© is equipped with a laser illuminating multi-dimensional images to misdirect probes and satellites.

SDC executes missions leveraging Leviathan power, vantage point of an eagle, surveillance of a hawk and speed of a falcon. Shortest distance between two points may be a straight line. Asymmetrical lines align themselves with a focus on speed vs distance. Commanding a satellite station equipped with highly advanced air missiles and space drones, not yet.

*New developments have materialized.

Inspired by the Pioneer of the “Rocket Engine Pedro Eleodoro Paulet Mostajo, architect and engineer, SDC has designed and built a prototype Tripropellant Rocket, the T3DrakknFly© Space Rocket. Mostajo has been noted as “the pioneer of the liquid fuel propulsion motor” according to Wernher von Braun.

Konstantin Tsiolkovsky’s use of liquid propellants as noted in his 1903 paper, Exploration of Outer Space by Means of Rocket Devices augmented the orbital horizon. Pedro Paulet, father of the SpaceRocket ignited the SpaceRace or SpaceWar.

Leticia Matlock has gone beyond the horizon in the SpaceRace. On behalf of SDC, she presents her prototypes: T3DrakknFly© Space Rocket, MDuza1© Satellite and VprXX©, Manned and UnCrewed Combat Aircraft (UCCA).

No matter the speed we accelerate our pace it may be wise to know when to change our direction and when to push forward. Our imagination creates endless possibilities. Let’s push to discover how infinite our universe is!

“Once we accept our limits, we go beyond them.” ― Albert Einstein

MDuza1© Satellite is similar to the ViathanTrkr© in that it will track, mobilize and veil the targeted object or resource, securing it for subsequent retrieval. But with the added capability of a directed-energy weapon (DEW): Destabilizing High-Powered Laser and a Nuclear Powered Particle Beam Demolisher. Ideal for defense against the development of Anti-satellite weapons systems.

VprXX© acts as a Manned and UCCA. Like the MDuza1© it is equipped with a directed-energy weapon (DEW). A Next-Gen hypersonic aircraft it is highly effective against fixed and mobile targets. VprXX© integrated Real-Time Operating System (RTOS) is linked to MDuza1© Satellite. Advanced Microprocessor provides Deep Tech capabilities for controlling, communicating and commanding strategy and tactics.

War World II brought on by the German Nazis called for appropriating Paulet’s work followed by the Russians having defeated Germany. Still, the dishonor of being the largest confiscator of engineers and scientists belongs to the Americans highlighted in “Operation Paperclip.” Yet, baton of “honor” befalls on China say US Intel agencies and DOD, “greatest threat to trade secrets and intellectual property.”

I find Robert Zurawski’s 1986 NASA Technical Paper 2602 Current Evaluation of the Tripropellant Concept lays the foundation for “The need for high-performance propulsion systems to transfer payloads into high-energy trajectories has renewed interest in the addition of metals to traditional liquid propellants. These tripropellants offer the opportunity to advance chemical rocket propulsion performance beyond that of any bipropellant system.”

Deep Technologies have advanced. Geopolitical forces in the last three decades opened opportunities for technology transfers between nations. Collapse of USSR, facilitated defense weapons and spacecraft interchange. Especially systems and fuels powering them.

Initial gravitation towards a powerful source was demanded – Tripropellant. The “Tripropellant propulsion systems consist of a liquidoxidizer, a liquid fuel, and a solid metal fuel.” However, analyzing the “excessive risks” of toxicity “NASA began to focus attention on advanced hydrogen/oxygen bipropellant systems, and budgets for the higher risk, high-payoff propulsion technology began to diminish. Eventually the concept of using tripropellants in liquid propulsion systems was abandoned.”

SDC, as China, finds the Critical Materials Institute (CMI) created one decade ago by the DOE did not address the issue of aircraft, spacecraft and missile acceleration’s impact on the environment. Applying Zurawski’s past findings to the present, I propose re-examining the use of tripropellants specifically with the inclusion of metal and minerals: lithium, cobalt and nickel.

Moreover, increase in “Elements of security” aka the Technology-Critical Element (TCE) are grounds for“Reconsideration of these experiences using today’s improved computational capabilities shows that a wider range of metal loadings and direct vehicle payload analysis should be included to get a true picture of the potential of the concept.” TCEs essentiality for batteries in electric vehicles, smartphones, and computers can carry over to configure a suitable propellant.

For Crewed or Uncrewed Rockets, SDC put forth Zurawski’s view, “A new and different look at tripropellants needs to be taken for this concept to gain acceptance. Future efforts on tripropellants should focus on the enhancement of liquid- bipropellant density by metal addition.” Advances in UEVs powered by batteries made from TCEs can be leveraged for remote controlled UnCrewed Combat Aircraft (UCCA).

US Defense forces, Gen. Mark Milley are unable to access the key to “shoot the archer, not the arrow and to get at the system at its launch sites.” General walks in darkness as both MDuza1© & VprXX© are in Stealth mode.

SDC finds in addition to “Elements of security” which include plutonium, lithium, cobalt and nickel, the refined application of carbonado or “black diamond” is highly conducive to space elements. A coating using these and select patented chemicals allow for a “dark space” or “cristallum” camouflage.

T3DrakknFly©, MDuza1© and the VprXX© are built with this special coating. Stealth and Speed are reminiscent of Photon momentum where they’re virtually unobservable.

SpaceX DarkSat Satellites, according to Jeremy Tregloan-Reed, an astronomer at the University of Antofagasta in Chile and a member of the observational team that assessed the prototype “found that although DarkSat’s antireflective coating rendered it invisible to the naked eye, it remains far too bright to avoid interfering with the Rubin Observatory and other major telescopes.”

Both the MDuza1© and the VprXX© are virtually in constant stealth modes. By contrast, SpaceX DarkSat’s coating appears to render it highly visible to competitors as well as state and non-state actors.

The VprXX© a hypersonic UCCA can be strategically positioned ahead of the Młock1© hypersonic aircraft to assess the enemy’s location. Air Force Secretary Frank Kendall understands such maneuvers, “When you bring uncrewed combat aircraft to the equation…for the purpose of drawing fire…You let them be captured because it reveals the enemy’s position.”

SDCs ViathanTrkr©, Młock1©, MDuza1© and VprXX© has strategically put in place countermeasures against arising defense tactics such as Kendall notes, “We’re working and others are working on defenses against them.” From satellites, to Directed-Energy Weapons DEWs to next gen fighters, we imagine such formidable forces include Israel, India, China, Russia, Iran, Turkey, Pakistan, North Korea, and Japan.

Key critical elements for thermal energy source include the ²³⁸ Pu. Traditional energy scarcity or supply chain issues are mitigated with the use of radioisotope ²³⁷Np. ²³⁷Np can transform to a ²³⁸ Pu.

Observances are made of the 10.02.2012 GLOBAL SECURITY & NONPROLIFERATION PROGRAMS MISSION STATEMENT AND FACT SHEET specified at www.ornl.gov.

US broadcast of Nuclear Readiness Amidst Russia Ukraine War does not classify Iran as an imminent threat. Defense and Air Force threat assessment classify Russia (acute) and China (pacing). “Warhead Safety and Security Exchange Agreement (WSSX) agreement allows U.S. and Russian scientists who have expertise to design and produce nuclear weapons to work together…” Replacement of Chinese scientists with Taiwanese may serve dual purposes of expertise and critical supplies (i.e. semiconductors).

SDC successfully commands “Maritime dominance.”

Samuel Morse’s Telegraphs System put forth the “laying and operation of a submarine telegraph cable across the Atlantic Ocean, electrically connecting the Old World with the New and opening the present era of global communication.” Inspired by “Lightning Man,” SDC has designed prototypes for Manned Combat Seacraft (MCS) and Uncrewed Combat Seacraft (UCS).

SDC Image Source: 1. breakingdefense.com 2. clayandiron.com