In the beholder's mind2008-03-26 © Futureextreme.net / irpt.info
In the functional S level attrition we approach the assumed failure at a low level and proceed upward. Firing the neurons is typically dispensed under the control of a programmer unit according to the settings on a control panel. Breaking in the system with a warning receiver for a lock-on of the human subjects, the end result is very variable. In a predeployed saturation mode or a mutual support mode with the human subject it is possible with an optimum/unperturbed refractive index to distort perceptions, paralyze, decrease competence, etc. or heighten perceptions, give energy to perform beyond normal capacities. Overhead surveillance satellites are "the manipulation plantforms" (jargon) for any one scan or several scans on the human subjects. Lock-on of the human subject is referred to as a slow fluctuation. This category is operational only with a vulnerability assessment of the subject. The determination of subjects reaction linearities and controllability can be a complex and time-comsuming task. With a step-by-step procedure many simplification and assumptions are made. It is more important than ever to be able to "communicate" in real time. The question has always been how to do it seamlessly. Modern mind control have intelligent third parties (e.g. AI.) operating, so the programmer unit may not achieve real insight on the lock-on human subject (false situational awareness). Electronic sensors, microprocessors filter data, execute their programming and send discrete signals. Display systems glean and interpret data from a bus, providing indications along with visual and aural warning to the operator team. A failure in any portion of the loop or its programming causes incomplete information. DoD Mission Need Statement (MNS) is a brief, nonsystem specific statement that do lend itself to critical system characteristics. It identifies fundamental to corrective action in recognition of the problem. Studies are being conducted to enhance the procedures used by operators and manufacturers to provide realtime malfunction analysis and data correlation for the detection of impending failure in intelligent mind control systems. NSA officials are drafting road maps to accelerate upgrades and restructure modernization plans for the overworked surveillance satellites. The list of programs headed for a makeover is long. Streamlining is being recommended for the cross-collection capabilities of mind control data. The application of a signal generator to generate an excitation function is primarily of interest in the analysis of the very accurate signal plots from the digital point position database. This database has improved dramatically during the years in order to handle the flow of time-critical data. The nature of this "service" will always exploit the potential of what can be gleaned. However, government officials will have to contend with firewalls that bar them from carte blanche to mind control intelligence community reports. Perceptibility reduction can manipulate the subject's ability to detect the neuron interference. The true measure of vulnerability is synonymous with isolating the one subject on many scenarios and low observables. There is a positive correlation between IQ scores and neural speed. But nothing can be seen or concluded after a single nightwatch at the scopes because the brain produces too much background noise. Typically, during a nightwatch session of the subconscious, impulses zip along where any variation in its performance, basic speed or efficiency is also linked to nerve conduction speed, thickness of fatty insulation and its size. Enhancements correlates newfound perceptible efficiencies and reliable connectivity to different parts of the brain related to the meaning and significance of the sensory information. The task, therefore, is not just looking to facilitate the information exchange, but also increasing the brain's potential. Stimulating new neural networks is vital to induce spirals of capability. The after-effects of enhancement are consequential. The human subject will savor the exhilaration of just being alive and kicking. With liberating sidetracks enticing the unconscious transfer of one's own impressions of being improved. In the background of consciousness lingers the recognition of a mental and verbalizable process with a physical sensation. Full enhancement would include the subject's ability to tolerate the prolonged and cumulative effects of stimuli produced and perceived in the brain. In a predeployed saturation mode the brain is able to put up the shutters in case of default. The mutual support mode would include full acceptance of being pushed into the world of intellect not clearly perceived. The subject would sense the inner readjustment consolidating such acceptance. Heightened consciousness arising from mind control is an end in itself without intermediaries. Colors is a medium of man through which impressions are conveyed, but often the subjects are on the open-sea with regards to accurate translations. Being delineated accurately and present in an erect attitude of attention may speed up the cohesiveness and depth of the experience. In approaching the final step of a transfer function, for a selected neural network, it is necessary to preserve the signal-flow constraints on adjacent networks. All physical signals are contaminated by small random variations arising from a variety of causes. Transportation of charged particles which moves randomly through neural conductors is one of the contributing factors. Noise signals are unavoidable, but they can be held within tolerable limits. They become a serious problem, however, when they are introduced into a high-gain amplifier along with the desired signal. In the case of a predeployed saturation mode which responds to rate of change rather than amplitude, the presence of impulselike noise signals may drive the amplifier into overload. Even at best, the noise content of the signal is greatly accentuated. Integration tends to smooth the irregularities of a signal waveform, whereas differentiation tends to accentuate them. This is a situation requiring ingenuity. Lock-on programs are formulated in such a way that integration is substituted if at all feasible. The approach to lock-ons of human subjects should be one of meeting challenges artfully and cleverly or awkwardly and unthinkingly. The idea that it should be possible to use a common integrator for both the input and output signal component on neural networks is very important. Each neuron integrator is driven by the difference of input and output signals, and therfore the risk of overload is effectively reduced. There are extremely useful techniques for obtaining a predeployed saturation mode, almost regardless of the complexity of the sensory information. These techniques affords the programmer unit a means for quickly checking the subjects at any stage of formulation or transformation. If the transfer function fails to remain invariant, it is immediately apparent to the programmer unit that a mistake has been made. The problems associated with the development of automatic feedback cut across many areas of the mind control-system. It has proved to be elusive and difficult to supervise the quality of performance and to generate signals for supervisory control. However, considerable knowledge, both theoretical and pragmatic has been established with the technical feasibility. The signal flow concept can be applied as an aid to revealing the essence of a specific feedback problem and separating this from other complicating details tending to obscure. For a given "communication" in real time the control system engineer is faced with problems that must first be formulated in mathematical terms. I.e. the relevant characteristics of physical signals in terms of mathematical relations that are sufficiently simple to be convenient and sufficiently complicated to be realistic. Mind control technology has succeeded in establishing and describing relevant neuron interference related to the decomposition of signals. In a differentiating network the need for data processing arises with the need to predict the value of a signal. In a fire-control (lock-on) computer the analysis becomes complex with non-linear derivates and exponential driving signals. Before considering a vulnerability assessment of the human subjects driven by "an external source of excitation", the system engineers first turn their attention to the subjects that are undriven. Nevertheless, the latter are not in a state of rest, but in the course of responding to the energy stored in the lock-ons prior to the initial instant at which patterns of transmittance are formulated. Actually, it is only necessary to specify the vulnerability at any one instant of time. It turns out to be extremely difficult to handle the specification of initial vulnerability condition at other than t=0 versus prior to t=0. A complete specification of the neuron transmittance also has to include the statement of the appropriate initial conditions and then extend to higher-order sensory information. We know that the transmittance of a sequence of tandem neural branches is the product of the individual branch transmittances. We know further that transmittance of a configuration of parallel neural paths is the sum of transmittance of the separate paths. We apply a signal, and it flows through the forward path, delivering to neural node the signal. Therefore from this point of view, the closed neural loop generates infinite power series. This is about as far we can go in applying the formulated patterns of the transmittance of different neural paths from a specified sensory information, where no neural node are encountered more than once. The control-system technology is intimately related to signal paths and feedback loops. Not only in connection with the sensory information to highly complex neural networks, but more importantly, as a broad and advanced analytical tool which is an unbeatable aid to gaining insight into human behaviourism. Ron Certitude Permission is granted to copy, forward, or post this text unaltered.
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