Three advances are proposed as a pathway to the cataclysmic event of our first encounter with intelligent extraterrestrial beings. First, discovery of very large numbers of extraterrestrial planets, "exoplanets" (possibly as many as10 23 in our Universe); second, introduction of electronic components into the human body evolving into a cybernetic and biological "cyborg," a model for an extraterrestrial being Cyborgs might allow advanced civilizations to endure hundreds of thousands of years. Third, the recent development of high-frequency gravitational wave (HFGW) detectors, the communication means of choice for an advanced cyborg civilization since they are not easily absorbed like electromagnetic radiation. Six HFGW detectors are presented for application to our first encounter with intelligent extraterrestrial beings. Numerical estimates are made for the failure of extraterrestrial civilizations such that no two exist at the same time (Fermi's Paradox). It is concluded that there might remain at least ≈1.48 × 10 8 Worlds intercommunicating with HFGWs at any one time in any one region of our Universe. The predicted form of extraterrestrial beings is by means of animaginary, but based upon comprehensively documented and detailed projection of the evolution of "Earthling" homosapiens, to become "cyborgs." It is proposed that such long-living cyborg forms of intelligent beings would be encountered by us. The first cataclysmic encounter with them is expected to be interception of their interstellar communications. The predicted frequency of intercepted messages under one set of assumptions is at least 1500 per day. After decoding the intercepted messages, keys may be found to improve vastly the present and future quality of life for us earthlings. Advanced beings might utilize direct brain-to-brain communication and it is concluded that research into brain-to-brain communication and HFGW detection are encouraged.
Models developed to study and evaluate innovative organizational structures predict organizations with an intelligence, surveillance, and reconnaissance (ISR) coordinator will be superior in performance to organizations without such a coordinator, especially when information load is high. We examined the effect of the presence or absence of an ISR coordinator and information load on mission performance employing a moderate fidelity man-in-the-loop simulation. Counter to the modeling predictions the organization with an ISR coordinator was not superior in performance to an organization without an ISR coordinator. However, analysis of the Email/Intel message traffic showed organizations with an ISR coordinator to be superior in situation assessment and awareness. When these latter results are coupled with results showing a steep and significant improvement curve between trials 1 and 2 for the organization with an ISR coordinator, we surmise that if teams are given more practice and familiarization with novel organizations, empirical results will confirm the model predictions.
Steadily increasing time is involved in most scientific analyses. Like other dimensions in spacetime we suggest that there can be a variation rate of time's progress or speed of time in the time dimension. We study speed-of-time variation observational data in three processes: muon decay, galaxy rotation (related to dark matter) and the separation speed of celestial objects as our Universe progresses (related to dark energy). Each of these processes will have an "observed value" of their time of completion P o from an observation of the process at time t 1 and an "expected value" P e of that time at time t 2 .Their difference is attributed to the variation of the speed of time. We provide a possible explanation for the anomalous separation of the observed and the expected galactic velocity curves. Our conclusion is that it is unnecessary to introduce dark matter or dark energy.
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