Professor Kamuro's near-future science predictions:
HAMIIS:
The only one representative of tactical destruction and killer weapons for that Electromagnetic warfare and electronic warfare
Quantum Physicist and Brain Scientist
Visiting Professor of Quantum Physics,
California Institute of Technology
IEEE-USA Fellow
American Physical Society-USA Fellow
PhD. & Dr. Kazuto Kamuro
AERI:Artificial Evolution Research Institute
Pasadena, California
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I. Electromagnetic Warfare
Prof. KAMURO will provide an overview of electromagnetic warfare, exploring specific weapon names and technologies associated with this domain from academic, engineering, industrial, legal, economic, and military Overviews. Let us delve into each of these dimensions.
a. Electromagnetic warfare(EMW) or electronic warfare(EW) is warfare involving the use of the electromagnetic spectrum (EM spectrum) or directed energy to control the spectrum, attack an enemy, or impede enemy operations. The purpose of electromagnetic warfare is to deny the opponent the advantage of—and ensure friendly unimpeded access to—the EM spectrum. Electromagnetic warfare can be applied from air, sea, land, or space by crewed and uncrewed systems, and can target communication, radar, or other military and civilian assets.
b. Academic Overview:
From an academic standpoint, electromagnetic warfare involves the study of various weapons and technologies. Some specific examples include:
Radar Systems: These include technologies such as Active Electronically Scanned Array (AESA) radar, Synthetic Aperture Radar (SAR), and Over-the-Horizon Radar (OTHR), which are used for detection, tracking, and identification of targets.
Electronic Warfare Systems: This encompasses technologies like Electronic Countermeasures (ECM) and Electronic Support Measures (ESM), which disrupt, deceive, or deny enemy electronic systems.
Signal Processing: Advanced signal processing techniques are employed to enhance the detection, classification, and analysis of electromagnetic signals in warfare scenarios.
c. Engineering Overview:
From an engineering Overview, electromagnetic warfare involves the design and development of specific weapons and technologies. Here are a few examples:
Directed Energy Weapons: These include High-Energy Laser (HEL) systems and High-Power Microwave (HPM) devices that use concentrated electromagnetic energy to damage or disable enemy targets.
Communication Jamming Systems: These systems disrupt enemy communications by transmitting high-power radio frequency signals that interfere with the intended communication channels.
Cyber Warfare Tools: Cyber weapons, such as malware, exploits, and network intrusion tools, are used to conduct attacks on enemy computer systems and networks.
d. Industrial Overview:
From an industrial standpoint, the production and commercialization of specific weapons and technologies related to electromagnetic warfare are significant. Notable examples include:
Military Communication Equipment: Industries manufacture and supply secure communication systems, encryption devices, and radio frequency equipment tailored for military use.
Electronic Warfare Platforms: Companies develop and produce sophisticated electronic warfare platforms, such as airborne Electronic Warfare Aircraft or surface-based Electronic Warfare Systems.
Radar and Sensor Technologies: Industries focus on the production of advanced radar and sensor systems, including Long-Range Surveillance Radars and Multi-Function Phased Array Radars.
c. Legal Overview:
From a legal standpoint, there are frameworks and regulations in place to address the use and control of specific weapons and technologies. Examples of legally recognized weapons in electromagnetic warfare include:
Anti-Radiation Missiles: These missiles are designed to detect and home in on enemy radar emissions, targeting and disabling radar systems.
Frequency Jammers: Devices that emit electromagnetic signals to disrupt or jam enemy communication frequencies are subject to legal regulations to prevent misuse and protect civilian infrastructure.
d. Economic Overview:
Electromagnetic warfare has economic implications due to the production and market dynamics of specific weapons and technologies. Notable examples include:
Defense Contractors: Companies involved in the production of specific weapons and technologies related to electromagnetic warfare contribute to the defense industry, which has a significant economic impact.
Research and Development: Investments in research and development for advanced radar systems, electronic warfare technologies, and communication equipment drive technological progress and stimulate economic growth.
e. Military Overview:
From a military Overview, electromagnetic warfare involves the deployment and use of specific weapons and technologies to gain a tactical advantage. Some notable examples include:
Electronic Countermeasures (ECM): These include technologies such as jamming pods, chaff dispensers, and decoy systems that are used to disrupt enemy sensors and communication systems.
Directed Energy Weapons (DEW): Laser-based systems and high-powered microwave devices are employed to disable or destroy enemy targets using electromagnetic energy.
Cyber Weapons: Military forces use specific cyber weapons, such as malware, computer viruses, and network intrusion tools, to conduct cyber operations and disrupt enemy networks.
f. HAMIIS: The Ultimate and Only One Killer Weapon Against Electromagnetic Attack Weapons:
Electromagnetic warfare encompasses a wide array of specific weapons and technologies from various Overviews. These examples highlight the diverse range of tools employed in this domain, emphasizing the importance of understanding their academic, engineering, industrial, legal, economic, and military implications.
The HAMIIS, which is being researched and developed by AERI (Artificial Evolution Research Institute HP: https://www.aeri-japan.com/) as next-generation military defense weapons, ballistic missile defense weapons, and enemy missile base attack weapons, is only one representative of tactical destruction and killer weapons for that Electromagnetic warfare(EMW) and electronic warfare(EW).
Research and development of the following anti-electromagnetic warfare weapons are underway as representative applications of the HAMIIS.
a. High-altitude missile initial (initial boost-phase) intercept system (HAMIIS) technology b. Peta-Exa Watt-class ultra high-power laser-equipped missile defense technology for initial intercept of surface-to-air missiles (enemy missile site neutralization technology) c. Missile defense satellite technology equipped with a Peta-Exa Watt-class ultra high-power laser for initial intercept of ICBM and ballistic missiles (enemy base attack technology)
d. EMP attack missile initial boost phase interceptor (HAMIIS) technology
The HAMIIS, a representative of tactical destruction weapons that AERI (Artificial Evolution Research Institute HP: https://www.aeri-japan.com/) is researching and developing, is the ultimate missile defense system, and has three capabilities: enemy base neutralization capability, nuclear and conventional weapon neutralization capability, and enemy base attack capability. It can disable, incapacitate, or completely destroy all of the main electromagnetic warfare weapons in Electromagnetic Warfare Weapons and Electronic Warfare Weapons.
AERI (Artificial Evolution Research Institute HP: https://www.aeri-japan.com/) Peta-Exa watt class ultra-High Energy laser(AERI・HEL) missile Defense System is one of the AERI state of art laser weapons. HAMIIS(AERI high-altitude missile initial interception system) is one of the most powerful representative killer application electromagnetic attack weapons in AERI・HEL missile Defense Systems.
Both the initial state estimation of the boost phase and boost phase are the portion of the flight of an electromagnetic attack ballistic missile or space vehicle during which the booster and sustainer engines operate until it reaches peak velocity. The initial state estimation of the boost phase can take 0 to 4 minutes for a solid rocket (shorter for a liquid-propellant rocket), the altitude at the end of this phase is 0–200 km, and the typical burn-out speed is 7 km/s.
HAMIIS initial state estimation of the boost phase and boost phase interception is a type of missile defense technology that would be designed to disable enemy electromagnetic attack missiles(one of electromagnetic attack weapons) while they are still in the initial state estimation of the boost phase. Such defenses have the advantage of being able to easily track their targets through the infrared signature of the rocket exhaust, and that boosters are generally much less robust than the warheads or bus. Destroying the booster also destroys all of the warheads and decoys, and even simply pushing it off its trajectory can make it impossible for its payload to reach its destination.
The initial state estimation of the boost phase interception in HAMIIS is also generally the most difficult to arrange, as they require the interceptor to be within attack range within the few minutes while the electromagnetic attack missile engines are firing. Given some sort of positive control over the launch, this means there is not only a short time for the AERI・ HEL Weapons(the AERI Peta-Exa watt class ultra-high power laser missile Defense Systems) to reach their targets after the launch command is given. This requires very light-speed weapons located close to the enemy launchers. the AERI・ HEL Weapons can operate at speeds close to the speed of light.
The AERI/HEL Weapons capture the initial state estimation of the boost phase when an electromagnetic attack missile is launched from an electromagnetic attack missile site hidden anywhere on Earth, and instantly laser-shoot the launching electromagnetic attack missile in less than 1 second. As a result, the AERI HEL Weapons can disable the electromagnetic attack missile by completely destroying it and making it inflightable.
AERI (Artificial Evolution Research Institute HP: https://www.aeri-japan.com/) Peta-Exa watt class ultra-High Energy laser(AERI・HEL) missile Defense System is one of the AERI state of art laser weapons. HAMIIS(AERI high-altitude missile initial interception system) is one of the most powerful representative killer application missile weapon in AERI・HEL missile Defense Systems.
AERI・HEL missile Defense Systems was a major initial state estimation of the boost phase interception weapon design of the Strategic Defense Initiative. This used an x-ray laser stationed on a submarine off the coast of the Soviet Union that would "pop-up" a weapon when a launch was detected. Each missile that AERI・HEL missile Defense Systems destroyed would eliminate hundreds of targets that would have to be dealt with in later stages.
The AERI HEL Weapons captures the initial state estimation of the boost phase where a total of 3000 electromagnetic attack ballistic missiles are simultaneously launched from more than 500 different electromagnetic attack missile sites or electromagnetic attack weapons sites hidden anywhere on the earth, electromagnetic attack ballistic missiles(or electromagnetic attack weapons) or electromagnetic attack weapons sites can be shot and destroyed instantly with a laser within 10 seconds.
II. Electromagnetic warfare weapons
1. The electromagnetic environment
Military operations are executed in an information environment increasingly complicated by the electromagnetic spectrum. The electromagnetic spectrum portion of the information environment is referred to as the electromagnetic environment (EME). The recognized need for military forces to have unimpeded access to and use of the electromagnetic environment creates vulnerabilities and opportunities for electronic warfare in support of military operations.
Within the information operations construct, EW is an element of information warfare; more specifically, it is an element of offensive and defensive counterinformation.
NATO has a different and arguably more encompassing and comprehensive approach to EW. A military committee conceptual document from 2007, MCM_0142 Nov 2007 Military Committee Transformation Concept for Future NATO Electronic Warfare, recognized the EME as an operational maneuver space and war fighting environment/domain. In NATO, EW is considered to be warfare in the EME. NATO has adopted simplified language which parallels those used in other war fighting environments like maritime, land, and air/space. For example, an electronic attack (EA) is offensive use of EM energy, electronic defense (ED), and electronic surveillance (ES). The use of the traditional NATO EW terms, electronic countermeasures (ECM), electronic protective measures (EPM), and electronic support measures (ESM) has been retained as they contribute to and support electronic attack (EA), electronic defense (ED) and electronic surveillance (ES). Besides EW, other EM operations include intelligence, surveillance, target acquisition and reconnaissance (ISTAR), and signals intelligence (SIGINT). Subsequently, NATO has issued EW policy and doctrine and is addressing the other NATO defense lines of development.
Primary EW activities have been developed over time to exploit the opportunities and vulnerabilities that are inherent in the physics of EM energy. Activities used in EW include electro-optical, infrared and radio frequency countermeasures; EM compatibility and deception; radio jamming, radar jamming and deception and electronic counter-countermeasures (or anti-jamming); electronic masking, probing, reconnaissance, and intelligence; electronic security; EW reprogramming; emission control; spectrum management; and wartime reserve modes.
2. Subdivisions
Electronic warfare consists of three major subdivisions: electronic attack (EA), electronic protection (EP), and electronic warfare support (ES).
a. Electronic attack
Krasukha, a Russian mobile, ground-based, electronic warfare (EW) system used to jam AWACS and airborne radars on radar-guided missiles.
Main article: Electronic countermeasure
Electronic attack (EA), also known as electronic countermeasures (ECM), involves the offensive use of electromagnetic energy weapons, directed energy weapons, or anti-radiation weapons to attack personnel, facilities, or equipment with the intent of degrading, neutralizing, or destroying enemy combat capability including human life. In the case of electromagnetic energy, this action is most commonly referred to as "jamming" and can be performed on communications systems or radar systems. In the case of anti-radiation weapons, this often includes missiles or bombs that can home in on a specific signal (radio or radar) and follow that path directly to impact, thus destroying the system broadcasting.
b. Electronic protection
Electronic protection (EP), also known as an electronic protective measure (EPM) or electronic counter-countermeasure (ECCM) are a measure used to protect against an electronic enemy attack (EA) or to protect against friendly forces who unintentionally deploy the equivalent of an electronic attack on friendly forces. (sometimes called EW fratricide). The effectiveness of electronic protection (EP) level is the ability to counter an electronic attack (EA).
Flares are often used to distract infrared homing missiles from missing their target. The use of flare rejection logic in the guidance (seeker head) of an infrared homing missile to counter an adversary's use of flares is an example of EP. While defensive EA actions (jamming) and EP (defeating jamming) both protect personnel, facilities, capabilities, and equipment, EP protects from the effects of EA (friendly and/or adversary). Other examples of EP include spread spectrum technologies, the use of restricted frequency lists, emissions control (EMCON), and low observability (stealth) technology.
Electronic warfare self-protection (EWSP) is a suite of countermeasure systems fitted primarily to aircraft for the purpose of protecting the host from weapons fire and can include, among others: directional infrared countermeasures (DIRCM, flare systems and other forms of infrared countermeasures for protection against infrared missiles; chaff (protection against radar-guided missiles); and DRFM decoy systems (protection against radar-targeted anti-aircraft weapons).
An electronic warfare tactics range (EWTR) is a practice range that provides training for personnel operating in electronic warfare. There are two examples of such ranges in Europe: one at RAF Spadeadam in the northwest county of Cumbria, England, and the Multinational Aircrew Electronic Warfare Tactics Facility Polygone range on the border between Germany and France. EWTRs are equipped with ground-based equipment to simulate electronic warfare threats that aircrew might encounter on missions. Other EW training and tactics ranges are available for ground and naval forces as well.
Antifragile EW is a step beyond standard EP, occurring when a communications link being jammed actually increases in capability as a result of a jamming attack, although this is only possible under certain circumstances such as reactive forms of jamming.
In November 2021, Israel Aerospace Industries announced a new electronic warfare system named Scorpius that can disrupt radar and communications from ships, UAVs, and missiles simultaneously and at varying distances.
c. Electronic warfare support
Electronic warfare support (ES) is a subdivision of EW involving actions taken by an operational commander or operator to detect, intercept, identify, locate, and/or localize sources of intended and unintended radiated electromagnetic (EM) energy. These Electronic Support Measures (ESM) aim to enable immediate threat recognition focuses on serving military service needs even in the most tactical, rugged, and extreme environments. This is often referred to as simply reconnaissance, although today, more common terms are intelligence, surveillance and reconnaissance (ISR) or intelligence, surveillance, target acquisition, and reconnaissance (ISTAR). The purpose is to provide immediate recognition, prioritization, and targeting of threats to battlefield commanders.
Signals intelligence (SIGINT), a discipline overlapping with ES, is the related process of analyzing and identifying intercepted transmissions from sources such as radio communication, mobile phones, radar, or microwave communication. SIGINT is broken into two categories: electronic intelligence (ELINT) and communications intelligence (COMINT). Analysis parameters measured in signals of these categories can include frequency, bandwidth, modulation, and polarization.
The distinction between SIGINT and ES is determined by the controller of the collection assets, the information provided, and the intended purpose of the information. Electronic warfare support is conducted by assets under the operational control of a commander to provide tactical information, specifically threat prioritization, recognition, location, targeting, and avoidance. However, the same assets and resources that are tasked with ES can simultaneously collect information that meets the collection requirements for more strategic intelligence.
END
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Quantum Brain Chipset & Bio Processor (BioVLSI)
Prof. PhD. Dr. Kamuro
Quantum Physicist and Brain Scientist involved in Caltech & AERI Associate Professor and Brain Scientist in Artificial Evolution Research Institute( AERI: https://www.aeri-japan.com/ )
IEEE-USA Fellow
American Physical Society Fellow
PhD. & Dr. Kazuto Kamuro
email: info@aeri-japan.com
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【Keywords】 Artificial Evolution Research Institute:AERI
HP: https://www.aeri-japan.com/
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