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24 Jan 2020

Method and system for eliminating fighting strength of opposing combatant using electromagnetic wave


Method and system for eliminating fighting strength of opposing combatant using electromagnetic wave

https://patents.google.com/patent/WO2017076313A1/en?oq=us6017302a

Abstract

Provided are a method and system for eliminating the fighting strength of an opposing combatant using an electromagnetic wave; the method comprises: a method for transmitting an electromagnetic wave of a specific frequency and strength so as to cause the brain of an opposing combatant to quickly enter a deep sleep pattern, thus eliminating the fighting strength of the opposing combatant; a method for measuring, by means of transmitting and receiving electromagnetic waves, the degree to which the fighting strength of the opposing combatant is lost; and an operation display control method for regulating the electromagnetic waves according to the measured degree to which the fighting strength of the opposing combatant has been lost, so as to ensure that the effective of eliminating the fighting strength of the opposing combatant is stable and meets standards, and providing relevant information to an operator. The system consists primarily of: a transmitting device for eliminating the fighting strength of an opposing combatant by means of transmitting an electromagnetic wave; a monitoring device for measuring, by means of transmitting and receiving electromagnetic waves, the degree to which the fighting strength of the opposing combatant is lost; and a operation display control method for regulating the transmission of the electromagnetic waves according to the measured degree to which the fighting strength of the opposing combatant has been lost, so as to ensure that the effective of eliminating the fighting strength of the opposing combatant is stable and meets standards, and providing relevant information to an operator.

Classifications

A61M21/02 Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis for inducing sleep or relaxation, e.g. by direct nerve stimulation, hypnosis, analgesia
View 1 more classifications

WO2017076313A1

WIPO (PCT)
Worldwide applications
2016 WO
Application PCT/CN2016/104502 events 
2015-11-04

Priority to US14/931,869
2015-11-04

2016-08-18

Priority to CN201610685854.7
2016-08-18

2016-11-04

2017-05-11


Description

Method and system for relieving the combat power of the opposing warrior with electromagnetic waves

[Technical Field]

The present invention provides a method and system for modulating a brain sleep excitatory region with electromagnetic waves to achieve hypnosis and to lose the combat power of the opposing warrior.

【Background technique】

In modern warfare or enforcement, the attack is achieved through the use of anti-personnel weapons, which can cause inevitable human casualties and environmental damage. In many cases, the ultimate goal of the offense is not to cause casualties and damage the environment. The ideal offense is to win the opponent's arms without prejudice.

[Summary of the Invention]

The present invention provides a method and apparatus for winning a battle by losing electromagnetic power by transmitting electromagnetic waves without causing injury.

The brain has multiple functional excitatory areas. Among them, there are awakening and excitatory areas (including: blue spot nucleus LC, lateral dorsal nucleus LDT, foot bridge nucleus PPT), sleep excitatory area (including: ventral lateral preoptic area VLPO), thalamic reticular nucleus TRN. When the brain is in a wake-up mode, the wake-up zone suppresses the sleep excitatory zone and the thalamic reticular nucleus. The result of inhibition is that the sleep hormone is not released in the whole brain to keep the brain in a wake-up mode. When the stimulating zone of the brain awakens the excitation of the thalamic reticular nucleus to zero/blocked, the thalamic reticular nucleus releases the sleep hormone to the whole brain, and the brain enters a deep sleep mode. When the brain is in deep sleep mode, the driving signal cannot be transmitted to all parts of the body muscles (including the muscles of the visual system), thus losing combat power.

In the present invention, the loss of combat power of the opponent's warrior is achieved by emitting electromagnetic waves to hypnotize each other's brain.

In the present invention, hypnosis of the opponent's brain is achieved by generating an electromagnetic field that acts on the sleep excitation zone of the target brain and rapidly shifts the brain from the awake mode to the deep sleep mode.

In the present invention, the degree of hypnosis of the opponent's warrior's brain is such that the degree of combat power loss of the opponent is detected.

In the present invention, the detection of the degree of loss of combat power of the opponent's warrior is to emit electromagnetic waves to the target and the target lungs of the opponent's warrior and receive the reflected electromagnetic waves, and compare the electromagnetic waves emitted and reflected back to form a difference wave. When the difference wave changes from increasing or decreasing to no longer increasing or decreasing, the opponent's combat effectiveness is confirmed to be lost.

[Description of the Drawings]

Fig. 1 shows a method of winning the present invention by transmitting electromagnetic waves to lose the combat power of the opponent.

Figure 2 shows the three excitatory regions of the brain associated with the present invention: the wake-up excitatory region (including: the leukoplakia LC, the dorsal nucleus LDT, the foot bridge nucleus PPT), the sleep excitatory region (including: the ventrolateral anterior region VLPO) ), the thalamic reticular nucleus TRN, the relationship between the brain in a awake mode.

Figure 3 shows the three excitatory regions of the brain associated with the present invention: the wake-up excitatory region (including: the leukoplakia LC, the dorsal nucleus LDT, the foot bridge nucleus PPT), the sleep excitatory region (including: the ventrolateral anterior region VLPO) ), the thalamic reticular nucleus TRN, the relationship between the brain in deep sleep mode.

Figure 4 shows the sleep excitatory zone of the present invention by emitting electromagnetic waves to the target brain, so that the sleep hormone is released in a large amount in the whole brain, so that the target brain rapidly shifts from the awake mode to the deep sleep mode to achieve hypnosis and the opponent's combat effectiveness. Lost.

FIG. 5 shows the sleep excitatory region of the present invention by emitting pulsed electromagnetic waves to release a large amount of sleep hormones in the whole brain, thereby causing the target brain to rapidly transition from the awake mode to the deep sleep mode to achieve hypnosis and the other warrior. Loss of combat power.

6 shows the sleep excitation region in which the driving power source drives an antenna to emit electromagnetic waves on the target brain, so that the sleep hormone is released in a large amount in the whole brain, thereby rapidly shifting the target brain from the awake mode to the deep sleep mode to achieve hypnosis. As a result, the combat strength of the other fighters is lost.

7 shows the sleep excitation region in which the driving power source drives two or more antennas to emit electromagnetic waves on the target brain, so that the sleep hormone is released in a large amount in the whole brain, thereby rapidly shifting the target brain from the awake mode to the deep sleep. Mode to achieve hypnosis so that the opponent's combatant loss of combat power.

FIG. 8 shows that the driving power source of the present invention drives two or more antennas to transmit electromagnetic waves to the sleep excitation region of the target brain through a wireless connection, so that the sleep hormone is released in a large amount in the whole brain, thereby rapidly shifting the target brain from the awake mode. Into the deep sleep mode to achieve hypnosis so that the opponent's combatant loss of combat.

Figure 9 shows a method and system for use in an aircraft in air-to-air combat of the present invention.

Figure 10 shows a method and system for use in an aircraft in air-to-ground combat of the present invention.

Figure 11 shows a method and system of the present invention applied to a tank.

Figure 12 shows a method and system for use on a warship of the present invention.

Figure 13 shows a method and system of the present invention for use in attacking a building (e.g., catching a prisoner).

Fig. 14 is a view showing a method and system for monitoring the degree of combat power loss of a warrior of the present invention.

Figure 15 shows a single antenna system of the present invention for competing combat power of a warrior.

Figure 16 shows the core module of a dual frequency single antenna of the present invention for the loss of combat power of the opposing combatant.

Figure 17 shows the core module of a single-frequency single-antenna system for the loss of combat power of the opposing combatant of the present invention.

Figure 18 is a diagram showing a dual antenna system of the present invention which causes the combatant's combat power to be lost.

Figure 19 shows the core module of a dual antenna system for the loss of combat power of the opposing warrior of the present invention.

Figure 20 shows an antenna in the system of the present invention which causes the combatant's combat power to be lost.

【detailed description】

Fig. 1 shows a method of driving the antenna 2 with the driving power source 3 of the present invention to win the opponent's combatant power by transmitting electromagnetic waves. Among them, the loss/release of the combat strength of the opponent's warrior 1 is achieved by driving the antenna 2 with the driving power source 3 to emit electromagnetic waves of a certain frequency and intensity to the opponent's warrior 1.

As shown in Fig. 2, in the awake mode of the brain 4, the awake excitation zone 7 inhibits the sleep excitatory zone 8 through the channel 9, and simultaneously inhibits the thalamic reticular nucleus 5 through the channel 6, at which time the sleep hormone is not released.

As shown in Fig. 3, during the process of entering the sleep mode of the brain 4, the sleep excitatory zone 8 continues to increase the excitement, and the excitability of the rejuvenation zone 7 is suppressed by the channel 107, thereby causing the inhibition of the excitability of the thalamic reticular nucleus 5 by the rejuvenation zone 7 Channel 6 is blocked. At this time, the thalamic reticular nucleus 5 releases sleep hormones through the channel 10 throughout the brain, allowing the whole brain to enter a deep sleep mode.

Figure 4 shows a method and system of the present invention for rapidly inducing the brain 4 to sleep mode so that the combatant's combat power is lost. The electromagnetic wave 11 is applied to the sleep excitatory region 8 of the target brain 4, so that the sleep hormone is released in the whole brain, so that the target brain 4 rapidly shifts from the awake mode to the deep sleep mode, so that the combat strength of the opponent's warrior is lost.

Figure 5 shows a method and system of the present invention for rapidly entering the brain 4 into a sleep mode such that the combatant's combat power is lost. The pulsed electromagnetic wave 12 is applied to the sleep excitation zone 8 of the target brain 4, so that the sleep hormone is released in the whole brain, so that the target brain 4 rapidly shifts from the awake mode to the deep sleep mode, so that the combat strength of the opponent's warrior is lost.

The above electromagnetic wave may be any electromagnetic wave, including electromagnetic waves of any frequency (the most effective frequency range using the method is 3 kHz to 300 GHz), electromagnetic waves of any waveform (the most effective waveforms using the method include: sine wave, square wave, sawtooth wave, Pulse wave), pulsed electromagnetic waves of any duty cycle (the most effective duty cycle using this method is 5% to 90%) and electromagnetic waves of any intensity (the most effective intensity using this method is greater than 5 dBm). Electromagnetic waves have the property of penetrating non-conductors.

Fig. 6 shows a method and system for the loss of combat power of a warrior of the present invention, mainly composed of an antenna 13 and a driving power source 14. Wherein, the driving power source 14 drives the antenna 13 to emit electromagnetic waves to the target brain 4, and the electromagnetic waves act on the sleep excitation zone 8 of the brain, so that the sleep hormone is rapidly released in the whole brain, thereby rapidly shifting the target brain 4 from the awake mode to the sleep. Mode to achieve hypnosis so that the opponent's combatant loss of combat power. In the present invention, the distance of the antenna from the target brain is fixed (static) or time-varying (dynamic).

Fig. 7 shows a method and system for the loss of combat power of a warrior of the present invention, mainly composed of an antenna 15, an antenna 16, and a driving power source 17. The driving power source 17 emits electromagnetic waves to the target brain 4 at the same time or at different times by driving the antenna 15 and the antenna 16, and the electromagnetic wave acts on the sleep excitation region of the brain, so that the sleep hormone is rapidly released in the whole brain, so that the target brain 4 is rapidly From the awake mode to the deep sleep mode, the opponent's combatant's combat power is lost.

8 shows another method and system for wirelessly locking the combat power of a warrior of the present invention, mainly comprising a transmitting antenna 18, a transmitting antenna 20, a transmitting antenna 23, a receiving antenna 19, a receiving antenna 21, and a driving power source 22. In the system, the driving power source 22 transmits a driving electric signal through the transmitting antenna 23, and after receiving the driving electric signal, the receiving antenna 19 and the receiving antenna 21 simultaneously or simultaneously emit electromagnetic waves to the target brain 4 through the transmitting antenna 18 and the transmitting antenna 20. The electromagnetic wave acts on the sleep excitation zone of the brain 4, so that the sleep hormone is rapidly released in the whole brain, so that the target brain 4 rapidly shifts from the awake mode to the sleep mode, so that the combat strength of the opponent's warrior is lost.

Figure 9 shows a method and system for use in an aircraft in air-to-air combat of the present invention. Wherein, the fuselage 24 of the aircraft is replaced by an antenna (including a microstrip antenna), or a part or all of the surface of the fuselage 24 is covered with an antenna (including a microstrip antenna). In the air-to-air battle, because the electromagnetic wave has the property of penetrating the non-conductor, the electromagnetic wave emitted by the antenna on the aircraft will penetrate the enemy aircraft glass 25, so that the opponent's warrior 1 quickly enters the sleeping mode and the opponent's combatant loses the combat power. Winning.

Figure 10 shows a method and system for use in an aircraft in air-to-ground combat of the present invention. Wherein, the fuselage 27 and the wing 26 of the aircraft are replaced by antennas (including microstrip antennas), or a layer of antennas (including microstrip antennas) are covered on part or all of the surface of the fuselage 27 and the wing 26. In the air-to-ground battle, because the electromagnetic wave has the characteristics of penetrating the non-conductor, the opponent's warrior 1 (included in the building or not in the building) within the range radiated by the antenna on the aircraft will be affected by electromagnetic waves. And quickly enter the sleeping mode so that the opponent's combatant loss of strength and victory.

Figure 11 shows a method and system of the present invention applied to a tank. Among them, the tank casing 28 is replaced by an antenna (including a microstrip antenna), or a part or all of the surface of the tank casing 28 is covered with an antenna (including a microstrip antenna). In military warfare, because electromagnetic waves have the property of penetrating non-conductors, the opponent's warrior 1 (included in or not in the building) within the range radiated by the antenna on the tank will quickly become affected by electromagnetic waves. Enter the sleeping mode so that the opponent's combatant loses its combat power and wins.

Figure 12 shows a method and system for use on a warship of the present invention. Among them, the outer casing 29 of the warship is replaced by an antenna (including a microstrip antenna), or an antenna (including a microstrip antenna) is covered on part or all of the surface of the outer casing 29. In military warfare, because electromagnetic waves have the property of penetrating non-conductors, people within the range radiated by the antennas on warships (included in buildings or not in buildings) will quickly enter the sleeping mode due to the action of electromagnetic waves. So that the opponent's combatants lose their fighting power and win.

Figure 13 shows a method and system of the present invention for use in attacking a building (e.g., catching a prisoner). In the method, before the prisoner 108 is captured or the building 30 is captured, the driving power source 32 outside the building 30 transmits electromagnetic waves through the antenna 31, and the electromagnetic wave acts on the sleep excitation zone of the target brain 4, so that the sleep hormone is rapidly in the whole brain. Release, so that the target brain 4 quickly transitions from the awake mode to the sleep mode so that the combat strength of the opponent's warriors is lost.

In the above military occasions (including: aircraft, tanks, warships), police occasions (including: mandatory law enforcement, arrest of prisoners), the emission of electromagnetic waves is a continuous or intermittent process, part of the use of this method is our warrior or me Party law enforcement personnel wear helmet masks and protective clothing made of conductive materials (including wire).

Fig. 14 is a view showing a method and system for monitoring the degree of combat power loss of a warrior of the present invention. The method and system transmit electromagnetic waves 34 to the target heart 36 and the target lung 37 and receive the reflected electromagnetic waves 33 and electromagnetic waves 35, and compare the electromagnetic waves emitted and reflected back to form a difference wave, when the position of the warrior changes. The difference wave is enhanced or weakened, and when the difference wave is changed from increasing or decreasing to no longer increasing or decreasing, the combat strength of the opponent's warrior is confirmed to be lost. The degree of combat power loss of the opposing warrior is measured by comparing the degree of increase or decrease of the difference wave formed by the electromagnetic waves emitted and reflected back. The greater the degree of change in the difference wave, the less the opponent's combat power is lost.

Figure 15 shows a single antenna system for the loss of combat power of a warrior of the present invention, mainly composed of an antenna 38, a monitoring system 39, a transmitting system 40, an operational display control system 41, and a power source 42. The power source 42 drives the transmitting system 40 to emit electromagnetic waves to the target brain through the antenna 38, or at the same time or not, the monitoring system 39 transmits electromagnetic waves to the target heart and lungs through the antenna 38 and receives the reflected electromagnetic waves, and the monitoring system 39 will emit and reflect back. The electromagnetic waves are compared, and the contrasted result is input to the operation display control system 41, and the operation display control system 41 determines whether or not the emission of the electromagnetic wave of the transmission system 40 needs to be adjusted based on the comparison result. When the comparison result shows that the difference wave formed is enhanced or weakened, it indicates that the combat strength of the opponent's combatant is insufficient, and thus the emission of the electromagnetic wave of the transmitting system 40 needs to be regulated. The operational display control system 41 includes a sight that is primarily used to control the direction of the antenna 38. According to the detected degree of loss of combat power of the opponent's combatants, the regulation of the emission of electromagnetic waves mainly includes: the emission frequency of electromagnetic waves, the emission intensity of electromagnetic waves, and the emission direction of electromagnetic waves.

16 shows a core module of a single antenna system for competing combat power of a warrior of the present invention, mainly composed of a signal source 65, an amplifier 64, a signal source 63, a first-stage power amplifier module 62, a secondary power amplifier module 61, and a driving power supply module. 43. The microcontroller 44, the voltage regulator source module 45, the battery 46, the charging module 47, the antenna 48, the circulator 49, the power divider 50, the mixer 51, the low pass filter 52, the amplifier 53, and the human-machine interaction module 54. A narrow band filter 55 and an isolator 56 are formed. In the system, the signal source 63 sends an electrical signal, which is amplified by the first-stage power amplifier module 62, and then amplified by the second-stage power amplifier module 61, and then input to the antenna 48 through the isolator 56, and the target brain is required to emit the target brain to quickly go to sleep. The mode is an electromagnetic wave that loses its combat power. The signal source 65 simultaneously or not simultaneously emits another electrical signal, which is input to the power divider 50 through the amplifier 64. The power divider 50 inputs a part of the electrical signal into the mixer 51, and another part of the electrical signal is input to the antenna 48 through the circulator 49. The antenna 48 emits electromagnetic waves to the target heart and the target lung, and the reflected electromagnetic wave received by the antenna 48 passes through the circulator 49, is filtered by the narrow band filter 55, and then amplified by the amplifier 53 to the input mixer 51. The mixer 51 will be operated by the amplifier 51. The electrical signal input by the divider 50 is compared with the electrical signal input by the amplifier 53 to form a difference wave. The difference wave is transmitted to the low pass filter 52 for filtering, and then input to the microcontroller 44. The microcontroller 44 compares the difference. The value wave is judged, and the user checks the detection result through the human-machine interaction module 54 to determine whether to increase or decrease the electrical signal. The enhancement or attenuation of the electrical signal is accomplished by inputting the enhanced or reduced command to the human interaction module 54, which communicates the command to the microcontroller 44, which controls the drive power module 43 to implement.

17 shows a core module of a single antenna system for defeating the combat power of a warrior of the present invention, mainly comprising a signal source 80, a first-stage power amplifier module 79, a second-stage power amplifier module 78, a driving power supply module 66, and a microcontroller 67. The voltage regulator source module 68, the battery 69, the charging module 70, the antenna 71, the circulator 72, the power divider 73, the mixer 74, the amplifier 75, the low pass filter 76, and the human-machine interaction module 77 are formed. In the system, the signal source 80 sends an electrical signal, which is amplified by the first-stage power amplifier module 79, and then amplified by the second-stage power amplifier module 78. After the power divider 73, the power divider 73 inputs a part of the electrical signal to the mixer 74, and the other part. The antenna 71 is input through the circulator 72, and the electromagnetic wave required to cause the target brain to quickly enter the sleep mode to lose the combat power is transmitted by the antenna 71. The electromagnetic wave reflected by the antenna 71 is also transmitted through the circulator 72, and then amplified and input through the amplifier 75. The frequency converter 74 compares the electrical signal input by the power divider 73 with the electrical signal input by the amplifier 75 to form a difference wave, which is transmitted to the low-pass filter 76 for filtering, and then input to the micro-control. The controller 67 determines the difference wave, and the user checks the monitoring result through the human-machine interaction module 77 to determine whether to increase or decrease the electrical signal. The enhancement or attenuation of the electrical signal is accomplished by inputting the enhanced or attenuated command to the human interaction module 77, which communicates the command to the microcontroller 67, which controls the drive power module 66.

Figure 18 shows a dual antenna system for combating the combat effectiveness of the opposing combatant of the present invention, consisting primarily of an antenna 85, an antenna 86, a monitoring system 84, a transmitting system 81, an operational display control system 82, and a power source 83. The power source 83 drives the transmitting system 81 to emit electromagnetic waves to the target brain through the antenna 86, or at the same time or not, the monitoring system 84 transmits electromagnetic waves to the target heart and lungs through the antenna 85 and receives the reflected electromagnetic waves. The monitoring system 84 will emit and reflect back. The electromagnetic waves are compared, and the compared result is input to the operation display control system 82, and the operation display control system 82 determines whether the emission intensity of the electromagnetic wave of the transmission system 81 is increased or decreased based on the comparison result. In the present invention, the antennas may be two or more, or may be two or more antenna groups. The electromagnetic wave can be single frequency, dual frequency or multiple frequency.

FIG. 19 shows a core module of a dual antenna system for defeating combat power of a warrior of the present invention, mainly comprising a signal source 87, an amplifier 88, a signal source 89, a first-stage power amplifier module 90, a secondary power amplifier module 91, and a driving power supply module. 99, the microcontroller 100, the voltage regulator source module 101, the battery 103, the charging module 104, the antenna 93, the transmitting antenna 92, the circulator 94, the power divider 96, the mixer 97, the low pass filter 98, the amplifier 95, The human-computer interaction module 102 is composed. In the system, the signal source 89 sends an electrical signal, which is amplified by the first-stage power amplifier module 90, and then amplified by the secondary power amplifier module 91, and input to the transmitting antenna 92, which is required by the transmitting antenna 92 to cause the target brain to quickly enter the sleep mode so that The electromagnetic wave whose combat power is lost. The signal source 87 simultaneously or not simultaneously emits an electrical signal, which is input to the power splitter 96 via the amplifier 88. The power splitter 96 inputs a portion of the electrical signal to the mixer 97, and the other portion is input to the antenna 93 via the circulator 94, and the antenna 93 is directed to the target. The heart and the target lung emit electromagnetic waves, and the electromagnetic waves reflected by the antenna 93 are also passed through the circulator 94, amplified by the amplifier 95, and input to the mixer 97. The mixer 97 inputs the electrical signal input by the power divider 96 and is input by the amplifier 95. The electrical signals are compared to form a difference wave, and the difference wave is transmitted to the low-pass filter 98 for filtering, and then input to the microcontroller 100. The microcontroller 100 determines the difference wave, and the user passes the human-computer interaction module. 102 Check the test results to determine whether to increase or decrease the electrical signal. The enhancement or attenuation of the electrical signal is performed by inputting the enhanced or weakened command into the human-machine interaction module 102, which communicates the instruction to the microcontroller 100, which controls the drive power module 99.

Figure 20 shows an antenna in the system of the present invention which causes the combatant's combat power to be lost. The antenna may be a microstrip antenna or an array antenna, and is mainly composed of a transmitting unit 106, a dielectric board 105, an interface 109, and a current channel 110, and the antenna has a characteristic of emitting a direct electromagnetic wave. A plurality of transmitting units 106 form an antenna array, and electromagnetic waves emitted by each unit form electromagnetic waves synthesized with electromagnetic waves emitted by all other units in the array, the direction of which is perpendicular to the antenna array surface.

The features of each of the above-described embodiments are consistent with any of the conditions of any situation. For the sake of brevity, although all the combinations of the technical features in the above embodiments are not described, as long as they are not contradictory to the combination of features of these technologies, it should be understood that they are all included in the description and must be understood as all Features are within the scope of the description of this specification.

The above-described embodiments are merely illustrative of several forms of the invention, and are more specifically described, but the scope of the invention is not limited in any way. If it is a person skilled in the art of the present invention, some changes, improvements, and improvements can be made without departing from the technical scope of the present invention. This must be understood to be within the scope of the invention. The scope of protection of the present invention is defined in accordance with the specifications of the patent application.


Claims (20)
Hide Dependent 


A method of dissipating the combat power of a warrior by using electromagnetic waves, including a method of dissipating the combat power of the opponent's combatant by transmitting electromagnetic waves of a specific frequency and intensity, a method of detecting the degree of combat loss of the opponent's combatant by transmitting and receiving electromagnetic waves, and a base The detected degree of loss of combat power of the opponent's warrior is controlled by the method of controlling the emission of electromagnetic waves to ensure that the effectiveness of the combatant's combat power is released and the operator is provided with relevant information.
In claim 1, a method for releasing the combat power of the opponent's warrior by using electromagnetic waves is to emit electromagnetic waves to the opponent's warriors, modulate the sleep excitement zone of the opponent's brain, and release the sleep hormone in the whole brain, causing the other party to enter deep sleep. Mode, loss of combat power.
In claim 2, the electromagnetic wave emitted to the opponent's warrior is an electromagnetic wave of a certain intensity, and the intensity is greater than 5 dBm.
In claim 2, the electromagnetic wave transmitted to the opponent's warrior is an electromagnetic wave of a certain frequency ranging from 3 kHz to 300 GHz.
In claim 1, a method for detecting the degree of combat power loss of the opposing warrior is to emit electromagnetic waves to the target heart and the target lung and receive the reflected electromagnetic waves, and compare the emitted and reflected electromagnetic waves to form a difference wave. When the position of the warrior changes, the difference wave is enhanced or weakened. When the difference wave is changed from increasing or decreasing to no longer increasing or decreasing, the combat strength of the opponent's warrior is confirmed to be lost.
In claim 1, the degree of combat power loss of the opponent's warrior is measured by emitting electromagnetic waves to the target heart and the target lung and receiving the reflected electromagnetic waves, and comparing the degree of increase or decrease of the difference wave formed.
In claim 1, the regulation of the emission of electromagnetic waves according to the detected degree of loss of combat power of the opposing warrior mainly includes: the emission frequency of the electromagnetic wave, the emission intensity of the electromagnetic wave, and the emission direction of the electromagnetic wave.
In claim 1, an occasion in which an opponent's combatant's combat power is released during an attack is on the battlefield of the army, in which an electromagnetic wave is emitted by a person or a chariot to release the combat power of the opponent's warrior on the land.
In claim 1, another occasion in which the combatant's combat power is released during the attack is on the battlefield of the naval battle, in which the electromagnetic wave emitted by the person or the warship releases the combat power of the opponent's warrior on the water surface.
In claim 1, another occasion in which the opponent's combatant's combat power is released during the attack is on the battlefield of the air-to-ground battle, in which the electromagnetic force is emitted by the person or the aircraft/war machine to release the combat power of the opponent's warrior on the ground.
In claim 1, another occasion in which the opponent's combatant's combat power is released during the attack is on an air-to-air battlefield in which an electromagnetic wave is emitted by a person or an aircraft/warplane to relieve the combatant force of the opponent's fighter.
In claim 1, the other case where the combatant's combat power is released during the attack is in the case of an attack into the building, in which electromagnetic waves are emitted by a person or a weapon to release the combat power of the person inside the building.
In any of claims 8-12, part of the method is used by our warrior or our law enforcement personnel wearing a helmet mask and protective clothing made of a conductive material.
A system for dissipating the combat power of a warrior by electromagnetic waves, mainly consisting of a launching device that emits electromagnetic waves to dispel the combat power of the opposing warrior, a monitoring device that detects the loss of combat power of the opposing warrior by transmitting and receiving electromagnetic waves, and a detection device based on the detected The degree of loss of combat power of the opposing warrior is composed of an operation display control device that regulates the emission of electromagnetic waves to ensure that the combat effectiveness of the opposing warrior is stabilized and the relevant information is provided to the operator.
In claim 14, the transmitting device is mainly composed of a signal source, an amplifying module, a driving power supply module, and an antenna.
In claim 15, the monitoring device is mainly composed of a signal source, an amplification module, a power divider, a mixer, and an antenna.
In claim 16, the operational display control device comprises: a controller, a sight.
In claim 17, the transmitting device and the transmitting and monitoring device can use the same signal source or a different signal source.
In claim 17, the transmitting device and the transmitting and monitoring device may use the same antenna or different antennas.
In claim 19, the antenna comprises: an array antenna, a microstrip antenna; the antenna may be one or more.


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