A working knowledge of hypnosis is helpful to understand how to deal with the slave in certain instances. Because the slave is under the most powerful combinations of mind control and is so divided against his or her own self, it is almost impossible to have many problems with the slave if the handler does what he is supposed to do. However, some handlers get drunk or loan the slave to inexperienced people, etc. and problems do develop.
Of course the slaves always end up taking the blame for everything that goes wrong. If the slave gets out of hand, because the handler doesn’t know what he is doing, a stun gun comes in handy to control the mismanaged slave. In other words, a brief case with the programming book and stun gun are basically all that is needed to control a Monarch slave for the rest of his or her life. Some of these stun guns are only a few inches long and look like boxes. Other stun guns are embedded in staffs. The canes and the staffs that Satanists carry around, like Michael Aquino (in public in fact) are actually stun guns to control their slaves. The Queen Mother’s staff of the Illuminati has an electric stun gun hidden in it.
Children in day care centers are reporting small boxes with wires that electroshock them during programming. An example is given in Vol. 1, of how the Illuminati bloodlines connect to research about electric shocks to control people. For example, David V. Reynold’s research, who wrote, “Neuroelectric Research: Electroneuroprosthesis, Electroanesthesia, and Nonconvulsive Electrotherapy.”
Another way of using electricity for torture is to use directed energy (a new technology) on men’s genitals. With skillful use of directed energy they can simulate a rape of a man or woman. Artificial sodomy via directed energy was first tested in male prisons. ELF waves will place thoughts into the men’s mind as the directed energy make them feel sodomized.
Microwaves for Programming
On Aug. 22, 1989, Phillip L. Stoklin,
P.O. Box 2111, Satellite Beach, FL took out a patent –which is Patent Number 4,858,612 which is a device that can be placed in the auditory cortex of the brain. This device allows the following process: someone speaks into a microphone, the microphone then has its sounds coded into microwave, which are sent to the receiver in the brain and the receiver device will transform the microwaves back so that the person’s mind hears the original sounds. In other words, a person with this device in their head will hear whatever the programmers send via microwave signals.
Various types of “non-lethal” weapons have been created and are now being used. Directed energy can be used to sculpt clouds. ELF waves can be used to place thoughts in people’s minds without using implants. In 1991, a paper trail began to appear when the CIA connected U.S. government Global Strategy Council came out with a paper entitled, “Nonlethality: Development of a National Policy and Employing Nonlethal Means in a New Strategic Era.” Their paper was prepared by Janet Morris. The USAF School of Aerospace Medicine, Brooks Air Force Base, TX put out a report USAFAM-TR-87-30 entitled “Behavioral response of rats exposed to high-power microwave radiation.” High-power,ultra-short pulse-width emitters of microwaves were used to alter the thinking in rats. The report refers to two other reports: one by T. Wheeler, et. al. “Retrograde Amnesia in Rats Produced by Electron Beam Exposure,” entitled USAFAM-TR-83-3, Feb. ’83. The other report is by R. Bermant, “Classical conditioning of Microwave-Induced Hyperthermia in Rats.” Radio Sci. 14 (6S): 201-207, 1979.
The x-rays below were used with the victims’ permission.
Mind control implant in the nasal cavity.
Electrodes implanted in the person’s skull when a child in the 1940’s.
Transmitting implant in the cortex.
Implants enlarged from 7mm and 11 mm.
Drawings by Fritz Springmeier
This is a clear paper trail, that military research has gone on to control the brain via microwaves.
Another institution in Texas, the Texas Dept. of Criminal Justice TDCJ-ID, has been putting high tech listening implants into the ear canal behind the ear drum which lets them monitor what the ear is hearing–a great way to spy. This is according to an implant victim who with medical help discovered his implant. The Walter Reed Army Institute of Research (WRAIR) discovered that pulsed microwave audiograms also called analogs of the sounds of spoken words, could be transmitted to a target, and the effect on victim would be to hear voices in their head. The next 11 pages are patent no. 4,858,612. After this, we’ll reveal the numerous mind control capabilities of ELF microwave tech.)
The next pages, from page 169 to 174 may present the reader with some minor difficulties in reading, because with some words it was not possible to process them, because of poor printing. So some words are lost, and this can make certain sentences appear strange …
Background of the Invention
- Field at the InventionThis invention relates to devices for aiding at hearing in mammals. The invention is based upon the perception at sounds which is experienced in the brain when the brain is subjected to certain microwave radiation signals.
- Description ot the Prior Art
In prior art hearing devices for human beings, it is well known to amplify sounds to be heard and to apply the amplified sound signal to the ear at the person wearing the hearing aid. Hearing devices of this type are however limited to hearing disfunctions where there is no damage to the auditory nerve or to the auditory cortex. In the prior art, if there is damage to the auditory cortex or the auditory nerve, it cannot be corrected by the use ot a hearing aid. During World War II, individuals in the radiation path of certain radar installations observed clicks and buzzing sounds in response to the microwave radiation. It was through this early observation that it became known to the art that microwaves could cause a direct perception at sound within a human brain.
These buzzing or clicking sounds however were not meaningful and were not perception of sounds which could otherwise be heard by the receiver. This type of microwave radiation was not representative of any intelligible sound to be perceived. In such radar installations, there was never a sound which was generated which resulted in subsequent generation of microwave signals representative of that sound.
Since the early perception of buzzing and clicking. further research has been conducted into the microwave reaction of the brain. In an article entitled Possible Microwave Mechanisms of the Mammalian Nervous System” by Philip L Stocklin and Brain F. Stocklin, published in the TIT Journal of Life Sciences. Tower International Technomedical Institute. Inc. P.O. Box 4594, Philadelphia. Pa. (1979) there is disclosed a hypothesis that the mammalian brain generates and uses electra magnetic waves in the lower microwave frequency region as an integral part of the functioning of the central and peripheral nervous systems. This analysis is based primarily upon the potential energy of a protein integral in the neural membrane. In an article by W. Bise entitled “Low Power Radio Frequency and Microwave Effects On Human
Electro-encephalogram and Behavior,” Physiol. Chemistry Phys. 10. 387 (1978), it is reported that there are significant effects upon the alert human EEG during radiation by low intensity cw microwave electromagnetic energy. Bise observed significant repeatable EEG effects tar a subject during radiation at specific microwave frequencies.
Summary of the Invention
Results at theoretical analysis of the physics ot brain tissue and the brain/skull cavity, combined with experimentally-determined electromagnetic properties at mammalian brain tissue, indicate the physical necessity for the existence of electromagnetic standing waves. called modes in the living mammalian brain. The made characteristics rnay be determined by two geometric properties at the brain: these are the cephalic index at the brain (its shape in prolate spheroidal coordinates) and the semifocal distance of the brain (a measure of its size). It was concluded that estimation ot brain cephalic index and semifocal distance using external skull measurements on subjects permits estimation of the subjects characteristic mode frequencies, which in turn will permit a mode by mode treatment at the data to simulate hearing.
This invention provides for sound perception by individuals who have impaired hearing resulting tram ear damage, auditory nerve damage, and damage to the auditory cortex. This invention provides for simulation of microwave radiation which is normally produced by the auditory cortex. The simulated brain waves are introduced into the region at the auditory cortex and provide for perceived sounds on the part at the subject.
Brief Description Of The Drawings
FIG. 1 shows the acoustic filter bank and mode control matrix portions of the hearing device at this invention.
FIG. 2 shows the microwave generation and antenna portion of the hearing device of this invention.
FIG. 3 shows a typical voltage divider network which may be used to provide mode partition.
FIG. 4 shows another voltage divider device which may be used to provide mode partition.
FIG. 5 shows a voltage divider to be used as a mode partition wherein each of the resistors is variable in order to provide adjustment of the voltage outputs.
FIG. 6 shows a modified hearing device which includes adjustable mode partitioning, and which is used to provide initial calibration of the hearing device.
FIG. 7 shows a group of variable oscillators and variable gain controls which are used to determine hearing characteristics of a particular subject.
FIG. 8 shows a top view of a human skull showing the lateral dimension.
FIG. 9 shows the relationship of the prolate spherical coordinate system to the cartesian system.
FIG. 10 shows a side view of a skull showing the medial plane of the head. section A-A.
FIG. 11 shows a plot of the transverse electric field amplitude versus primary mode number M.
FIG. 12 shows a left side view of the brain and auditory cortex.
FIG. 13 shows the total modal field versus angle for source location.
Detailed Description of the Preferred Embodiment
This invention is based upon observations at the physical mechanism the mammalian brain uses to perceive acoustic vibrations. This observation is based in part upon neuro anatomical and other experimental evidence which relates to microwave brain stimulation and the perception of sounds. It is has been observed that monochromatic acoustic stimuli (acoustic tones, or single tones) of different frequencies uniquely stimulate different regions at the cochlea.
It has also been observed that there is a corresponding one to one relationship between the frequency of a monochromatic acoustic stimulus and the region of the auditory cortex neurally stimulated by the cochlcar nerve under the physiologically normal conditions tonotopicity).
It has been observed that for an acoustic tone of a frequency which is at the lower end at the entire acoustical range perceivable by a person, that thin lateral region (“Line”) parallel to the medial axis of the brain and toward the infenor portion of the primary auditory cortex is stimulated. For an acoustic tone whose frequency is toward the high end of the entire perceivable acoustic range, a thin lateral region parallel to the medial axis and toward the superior portion at the primary auditory cortex is stimulated. Neural stimulation results in the generation at a broad band of microwave photons by the change in rotational energy state of protons integral to the neuron membrane of the auditory cortex.
The physical size and shape of the brain/skull cavity, together with the (semiconductor) properties (conductivity and dielectric constant) of the brain tissue provide an electromagnetic resonant cavity. Specific single frequencies are constructively reinforced so that a number of standing electromagnetic waves, each at its own single electromagnetic frequency in the microwave frequency region. are generated in the brain. Each such standing electromagnetic wave is called a characteristic mode of the brain/skull cavity. Analysis in terms of prolate spheroidal wave functions indicates that transverse electric field components of these modes have maxima in the region of the auditory cortex.
This analysis further shows that transverse electric field possess a variation of amplitude with angle in the angular plane (along the vertical dimension of the auditory cortex) and that is dependent only upon the primary mode number. The auditory cortex in the normally functioning mammalian brain is a source of microwave modes. The auditory cortex generates these modes in accordance with the neural stimulation of the auditory cortex by the cochlear nerve. Mode weighting for any one acoustic tone stimulus is given by the amplitude of each mode along the line region of the auditory cortex which is neurally stimulated by that acoustic tone stimulus.
A listing of mode weighting versus frequency of acoustic stimulus is called the mode matrix. In this invention, the functions of the ear, the cochlear nerve, and the auditory cortex are simulated. Microwaves simulating the mode matrix are inserted directly into the region of the auditory cortex. By this insertion of simulated microwave modes, the normal operation of the entire natural hearing mechanism is simulated.
Referring now to FIG. 1 and FIG. 2 there is shown an apparatus which provides for induced perception of sound into a mammalian brain. This bearing device includes a microphone 10 which receives sounds, an acoustic filter bank 12 which separates the signals from the microphone into component frequencies, and a mode control matrix 14 which generates the mode signals which are used to control the intensity of microwave radiations which are injected into the skull cavity in the region of the auditory cortex. The acoustic filter bank 12 consists of a bank of acoustic filters Fl through Fk which span the audible acoustic spectrum. These filters may be built from standard resistance, inductance, and capacitance components in accordance with well established practice.
In the preferred embodiment there are 24 filters which 63 correspond to the observed critical bandwidths of the human ear. In this preferred embodiment a typical, list at filter parameters is given by Table I below:
The rectifier outputs one through K are feed to K mode partition devices. The mode partitioning devices each have N outputs wherein N is the number of microwave oscillators used to generate the microwave radiation. The outputs 1 through N of each mode partition device is applied respectively to the inputs of each gain controlled amplifier of the microwave radiation generator. The function of the mode control matrix 14 is the control of the microwave amplifiers in the microwave amplifier bank 18. In the preferred embodiment thus will be 24 outputs and 24 microwave frequency oscillators.
Connected to each microwave amplifier gain control line is a mode simulation device 16 which receives weighted mode signals from the mode partition devices 14. Each mode simulation device consists of one through k lines and diodes 17 which are each connected to summing junction 19. The diodes 17 provide for isolation from one mode partition device to the next. The diodes 17 prevent signals from one mode partition device from returning to the other mode partition devices which are also connected to the same summing junction of the mode summation device 16. The diodes also serve a second function which is the rectification of the signals received from the acoustic filter bank by way of the mode partition devices. In this way each mode partition device output is rectified to produce a varying DC voltage with major frequency components of the order of 15 milliseconds or less. The voltage at the summation junction 19 is thus a slowly varying DC voltage.
«- Previous | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 | View All | Next -»