Ilrs średnia ruchoma

Metastock Formulas - S Kliknij tutaj, aby wrócić do Metastock Formula Index If (CgtRef (C, -1) AND Ref (C, -1) gtRef (C, -2), PREV1, If ​​(CltRef (C, -1) AND Ref (C, -1) ltRef (C, -2), PREV-1, If ​​(CgtRef (C, -1) I Ref (C, -1) ltRef (C, -2), 1, If ​​(CltRef ( C, -1) I Ref (C, -1) gtRef (C, -2), - 1, 0)))) Ta formuła może być użyteczna jako składnik innych wskaźników, systemów lub eksploracji, a nie jako podstawa - alonowy wskaźnik. Konfigurowanie szablonu ADX Konstruuje szablon wspomniany w artykule ADX wydanym w październiku 1999 r. Przez TASC Paula Babbitta. 1. Zaplanuj swój indeks giełdowy, używając czystego szablonu, a następnie powtórz to samo, aby wyświetlić dwa nachodzące na siebie wykresy. 2. Na pasku menu kliknij Windows, a następnie Columns. Te dwa wykresy zostaną wyświetlone obok siebie. 3. Zmień wykres po lewej stronie z Codziennie na Tydzień. Kliknij prawym przyciskiem myszy skalę dat i wybierz Oś X. Ustaw wyświetlany zakres dat według swoich potrzeb, np. 1996 do 1999. Upewnij się, że zakres dat załadowanych rozpoczyna się wcześniej. Kliknij zakładkę Margin i ustaw margines na 1. 4. Z rozwijanej listy Indicator wybierz Moving Average i przeciągnij ją na wykres po lewej stronie. 40-letni okres na wykresie tygodniowym odpowiada 200-dniowemu MA. 5. W przypadku wykresu po prawej stronie pozostaw go w odstępach dziennych, ale ustaw oś X jak w pkt 3 powyżej na, powiedzmy, wyświetlacz 3-miesięczny. 6. Przeciągnij wskaźnik Bollinger Band na prawy wykres. 7. Przeciągnij wskaźnik ADX kierunku Directional Movement do górnej części wykresu po prawej stronie, aż kursor zmieni się w pole, a następnie zwolnij. Ustaw poziome linie według potrzeb. 8. Podobnie przeciągnij wskaźnik RSI do dolnej części wykresu po prawej stronie. System Shark-32, Walter Downs Sygnały wyjściowe Shark nie wydają się być tak dobre. W niektórych przypadkach sygnały sprzedaży dają dobre możliwości krótkiej sprzedaży, ale sygnały wydają się być zbyt nieliczne, aby polegać na nich w przypadku sygnałów sprzedaży w przypadku długich transakcji. Wzór rekina występuje zbyt rzadko, a tam nie ma gwarancji, że wystąpi, gdy trend się odwróci. Przy długich tradycjach musisz spojrzeć na inne wskaźniki, takie jak CCI, jak mówisz, lub może Parabolic SAR. Możesz użyć przełamania ceny poniżej pewnych średnich kroczących, albo - albo średniej ruchomych zwrotów. Wygląda jak wejście, ale nie ma wyjść w Shark. może standardowy CCI (13) z wyzwalaczami 200 i -150. Sygnały z rekinów w trzecim oknie na liście, którą wysłałem, były po prostu alarmami pokazującymi, że wzór rekina pojawił się w tych dniach. System rekinów opiera się na bliskim wzroście powyżej poziomów ustalonych w momencie pojawienia się wzoru rekina. Poziomy są ustalane przez wysokie i niskie we wzorcu rekinów, a zamknięcie musi je przebić w ciągu 25 dni od sygnału. Innymi słowy, wzór rekina nie jest sygnałem kupna lub sprzedaży. Sygnały zakupu zostały wyświetlone w drugim oknie wysyłanego przeze mnie wykresu. Okno nazywa się sygnałem zakupu Shark. Sygnały są również oznaczone zielonymi strzałkami na wykresie ceny w pierwszym oknie wykresu. Nie zawierałem sygnałów o sprzedaży na wykresie, który wysłałem dziś wcześniej. W przypadku MU sygnały sprzedaży nie były zbyt dobre, szczerze mówiąc. System Shark jest naprawdę oparty na dwóch osobnych wydarzeniach: pojawieniu się wzoru, a następnie sygnału. Wzór nie jest sygnałem. System daje sygnał, czy i kiedy zapasy ulegną zerwaniu powyżej najwyższego punktu wzoru w ciągu najbliższych 25 dni. Wysokie w pierwszym dniu wzorce wyznaczają najwyższy punkt. Jest to poziom oporu, ustalony przez najwyższy punkt płetwy rekina. Czasami zapas nie przekracza powyżej, więc nie ma sygnału. Wzór Shark pokazuje konsolidację, która może wskazywać na wzrost ceny. Ale wybuch nie zawsze występuje. Jeśli zapas złamie się poniżej dolnego punktu wzoru, pojawia się sygnał sprzedaży. Ideą tego systemu jest: Poszukaj trójbarkowego wzoru rekina, opartego na coraz mniejszych zasięgach. Wygląda jak płetwa rekina. Po pojawieniu się tego wzoru, poziom jest ustalany przez najwyższy punkt w płetwie, który jest wysoki (-2). W skanie nazywam ten poziom Sharkhigh. Aby uzyskać sygnał kupna, cena musi zamknąć się powyżej tego poziomu w ciągu 25 dni. Jeśli chcesz wykreślić rekin na wykresie z ceną, możesz to zrobić za pomocą części BuyOK formuły Metastock, wykreślając ją w Expert Adviser: Buy: Buyok1 AND Ref (Chk, -1) 0 AND ValidChk1 Kup LUB Ref (Kup, -1) LUB Ref (Kup, -2) LUB Ref (Kup, -3) LUB Ref (Kup, -4) LUB Ref (Kup, -5) Dla wzorca w Konstruktorze Wskaźników: If ((HltRef (H, -1) AND LgtRef (L, -1) I Ref (H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)), If (apex lt (Ref (H, -2) - (WBSymmetry)) I Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Jest to poziom oporu, przez który musi przebić cena. Trwa przez 25 dni lub do pojawienia się nowego sygnału Sharka. Łącząc analizę statystyczną i wzorcową, Shark 8211 32 - Walter T. Down, TASC 101998 Equis Najpierw wybierz Expert Adviser z menu Tools w MetaStock 6.5. Następnie wybierz Nowy i wprowadź następujące formuły: Nazwa: Kliknij kartę Nazwa i wpisz Shark 8211 32 w polu Nazwa. Trendy: kliknij kartę Trendy i wprowadź następujące formuły w polach Ulepszone i Niedźwiedzi. Kliknij kartę Najciekawsze, wybierz Nowy i wprowadź 3rd Bar w polu Nazwa. Teraz zmień kolor w polu Kolor na Niebieski. Na koniec wprowadź następującą formułę w polu Warunek, a następnie wybierz OK. Symetria: 0,28 Apex: (HL) 2 WB: Ref (H, -2) - Ref (L, -2) Shark: If ((HltRef (H, -1) AND LgtRef (L, -1) AND Ref ( H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)) 1, If ​​(Apex lt (Ref (H, -2) - (WBSymmetry)) AND Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Shark Używając tej samej metody co powyżej, wprowadź następujące 2 formuły podkreślenia. Nazwa: 2. Bar Kolor: Niebieski Stan: Symetria: 0,28 Apex: (HL) 2 WB: Ref (H, -2) - Ref (L, -2) Rekin: If ((HltRef (H, -1) AND LgtRef (L, -1) I Ref (H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)) 1, If ​​(Apex lt (Ref (H, -2) ) - (WBSymmetry)) I Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Ref (Shark, 1) 1 Nazwa: 1st Bar Kolor: Niebieski Stan: Symetria: 0,28 Apex : (HL) 2 WB: Ref (H, -2) - Ref (L, -2) Shark: If ((HltRef (H, -1) AND LgtRef (L, -1) AND Ref (H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)) 1, If ​​(Apex lt (Ref (H, -2) - (WBSymmetry)) AND Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Ref (Shark, 2) 1 Symbole: Kliknij kartę Symbole, wybierz Nowy i wpisz Rekupuj w polu Nazwa. Teraz wprowadź następującą formułę w polu Warunek. Symetria: 0,28 Apex: (HL) 2 WB: Ref (H, -2) - Ref (L, -2) Shark: If ((HltRef (H, -1) AND LgtRef (L, -1) AND Ref ( H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)) 1, If ​​(apex lt (Ref (H, -2) - (WBSymmetry)) AND Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Buyok: Cross (C, ValueWhen (1, Shark1, Ref (H, -2))) Chk: Cum (Buyok) - ValueWhen ( 1, Shark1, Cum (Buyok)) ValidChk: Alert (Shark1,25) Kup: Buyok1 AND Ref (Chk, -1) 0 AND ValidChk1 Buy Kliknij kartę Grafika. Zmień symbol w polu graficznym, aby kupić strzałkę. Teraz zmień kolor w polu Kolor na Zielony. Na koniec wpisz Kup w polu Etykieta, a następnie wybierz OK. Korzystając z tej samej metody co powyżej, wprowadź następującą formułę Symbol. Nazwa: Shark Sell Condition: Symmetry: 0,28 Apex: (HL) 2 WB: Ref (H, -2) - Ref (L, -2) Shark: If ((HltRef (H, -1) AND LgtRef (L, -1) I Ref (H, -1) ltRef (H, -2) I Ref (L, -1) gtRef (L, -2)) 1, If ​​(apex lt (Ref (H, -2) - ( WBSymetrii)) I Apex gt (Ref (L, -2) (WBSymmetry)), 1,0), 0) Sellok: Cross (ValueWhen (1, Shark1, Ref (L, -2)), C) Chk: Cum (Sellok) - Wartość (1, Shark1, Cum (Sellok)) ValidChk: Alert (Shark1,25) Sprzedaj: Sellok1 AND Ref (Chk, -1) 0 AND ValidChk1 Sprzedam Symbol: Sprzedaj Strzałka Kolor: Czerwony Etykieta: Sprzedam wzór rekina Stochastic i RSI System Formuła taka jak ta najlepiej sprawdza się przy potwierdzaniu wskaźników. Jeśli MACD 13-34-89 znajduje się powyżej linii zerowej (fioletowa linia w oknie 2 powyżej), potwierdza i zwiększa prędkość, a wskaźnik jest zwykle bardziej dokładny. Jeśli MACD 13-34-89 znajduje się poniżej linii zerowej, to krótka wskazówka StochRSI może dać lepsze wyniki. StochRSI 13 również daje doskonałe wskaźniki - w tym indeksie miał 4 z 5 zwycięskich sygnałów w ciągu dwóch lat. Czas między sygnałami jest oczywiście dłuższy. Sprawdź tę metodę w swoich ulubionych problemach. wprowadź długie mov (stoch (55,21), 5, w) gtref (mov (stoch (55,21), 5, w), - 1) i mov (stoch (55,21), 5, w) lt75 i mov (stoch (55,21), 5, w) gt20 wyjście długie (mov (stoch (55,21), 5, w) lt75 i ref (mov (stoch (55,21), 5, w), - 1 ) gt75) wprowadź krótki (mov (stoch (55,21), 5, w) lt70 i ref (mov (stoch (55,21), 5, w), - 1) gt70) i ​​mov (stoch (55,21 ), 5, w) ltref (mov (stoch (55,21), 5, w), - 1) wyjście short mov (stoch (55,21), 5, w) gtref (mov (stoch (55,21) , 5, w), - 1) i mov (stoch (55,21), 5, w) lt75 i mov (stoch (55,21), 5, w) gt20 SMI-Plex: StochMomentum (2,1,2 ) StochMomentum (3,2,1) StochMomentum (4,2,3) StochMomentum (5,3,5) StochMomentum (8,21,13) StochMomentum (13,25,2) SMI13E-Plex: Mov (StochMomentum (2 , 1,2) StochMomentum (3,2,1) StochMomentum (4,2,3) StochMome ntum (5,3,5) StochMomentum (8,21,13) StochMomentum (13,25,2), 13, E ) Stochastic Momentum Indicator Poniższa niestandardowa formuła zwraca nachylenie linii. Na przykład ta formuła zwraca nachylenie 14-dniowego cyklu cen zamknięcia papierów wartościowych. ((14 (Suma (Cum (1) C, 14))) - (Suma (Cum (1), 14) (Suma (C, 14))) ((14 Suma (Pwr (Cum (1), 2 ), 14)) - Pwr (Sum (Cum (1), 14), 2)) Aby zastosować to do różnych linii, należy zastąpić C pożądaną składnią linii. Na przykład nachylenie prostej średniej kroczącej z 25 okresów byłoby następujące: ((Suma (Cum (1) Mov (C, 25, S), 14)) - (Suma (Cum (1), 14) Suma (Mov (C , 25, S), 14) 14)) ((Suma (Moc (Cum (1), 2), 14)) - (Moc (Suma (Cum (1), 14), 2) 14)) Można również utwórz tę uniwersalną formułę za pomocą zmiennej P. Następnie możesz narysować wzór na górze dowolnej linii. Aby uzyskać tłumaczenie, zobacz artykuł Standardowe pasma błędów w wydaniu TASC z września 96, napisanym przez Jona Andersona. 21 okres Górny pasek (wygładzony): Mov ((21 Suma (Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21 Suma (Pwr (Cum (1), 2), 21) - Pwr (Sum (Cum (1), 21), 2)) Cum (1) (Mov (C, 21, S) - Mov (Cum (1), 21, S) (21 Suma ( Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21 Suma (Pwr (Cum (1), 2), 21) - Pwr (Suma (Cum (1) , 21), 2))) 2 (Sqrt (((Suma (Moc (C, 2), 21) - (Moc (Suma (C, 21), 2) 21)) - ((Suma (Cum (1) C, 21)) - ((Suma (Cum (1), 21) Suma (C, 21) 21))) ((Suma (Moc (Cum (1), 2), 21)) - (Moc (suma ( Cum (1), 21), 2) 21)) ((Suma (Cum (1) C, 21)) - ((Suma (Cum (1), 21) Suma (C, 21) 21))) 19 )), 3, S) 21 okres Niższe pasmo (wygładzone): Mov ((21 Suma (Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21 Suma ( Pwr (Cum (1), 2), 21) - Pwr (Sum (Cum (1), 21), 2)) Cum (1) (Mov (C, 21, S) - Mov (Cum (1), 21 , S) (21 Suma (Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21 Suma (Pwr (Cum (1), 2), 21) - Pwr (Suma (Cum (1), 21), 2))) - 2 (Sqrt (((Suma (Moc (C, 2), 21) - (Moc (Suma (C, 21), 2) 21)) - ((Suma (Cum (1) C, 21)) - ((Suma (Cum (1), 21) Suma (C, 21) 21))) ((Suma (Moc (Cum (1), 2), 21 )) - (Moc (suma (Cum (1), 21), 2) 21)) ((Suma (Cum (1) C, 21)) - ((Suma (Cum (1) , 21) Suma (C, 21) 21)))) 19)), 3, S) 21 okres R2 (wygładzony): 21 okres Nachylenie regresji: (((Suma (Cum (1) C, 21)) - ( Suma (Cum (1), 21) Suma (C, 21) 21)) ((Suma (Moc (Cum (1), 2), 21)) - (Moc (Suma (Cum (1), 21), 2 ) 21))) ((C-Fml (21-stopniowy dolny prążek (wygładzony))) (Fml (21-wieczne górne pasmo (wygładzone)) - Fml (21-stopniowy dolny prążek (wygładzony)))) 21 okres Regresja (wygładzona) : Mov ((21Sum (Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21Sum (Pwr (Cum (1), 2), 21) - Pwr (Suma (Cum (1), 21), 2)) Cum (1) (Mov (C, 21, S) - Mov (Cum (1), 21, S) (21 Zasób (Cum (1) C, 21) - Suma (Cum (1), 21) Suma (C, 21)) (21Sum (Pwr (Cum (1), 2), 21) - Pwr (Suma (Cum (1), 21), 2)), 3, S) Poniższa formuła jest trzydniową średnią kroczącą z 14-dniowego Stochastycznego. W Metastocku dla Windows byłaby to linia wskaźnika, która jest narysowana za pomocą wbudowanego wskaźnika Stochastycznego Mov ((((C-LLV (L, 14)) (HHV (H, 14) - LLV (L, 14)) 100 ), 3, S) Pomyśl o cenach bezpieczeństwa w wyniku bezpośredniej walki pomiędzy bykiem (kupującym) a niedźwiedziem (sprzedającym). Byki podnoszą ceny wyżej, a niedźwiedzie obniżają ceny. Rzeczywiste zmiany kierunku pokazują, kto wygrywa bitwę. Poziomy wsparcia wskazują na cenę, w której większość inwestorów uważa, że ​​ceny wzrosną wyżej, a poziomy oporu wskazują cenę, przy której większość inwestorów uważa, że ​​ceny będą się obniżać. Aby utworzyć wskaźnik wsparcia i oporu w MetaStock, użyj następującej niestandardowej formuły: LookBack: Input (Look Back Periods, 1,1000,10) Resistance: ValueKiedy (1, Cross (Mov (C, LookBack, S), C), HHV (H, LookBack)) Wsparcie: Wartość When (1, Cross (C, Mov (C, LookBack, S)), LLV (L, LookBack)) Resistance Support Aby użyć tej formuły najefektywniej, użyj dialogu parametrów, aby zmienić styl do kropkowanej linii przy jednoczesnym zwiększaniu wagi linii. W tym wydaniu Dennis L. Tilley używa wsparcia i oporu, aby potwierdzić sygnały dotyczące ceny i sygnału zwrotnego SMA w swoim artykule "Prosta średnia ruchoma z oporem i wsparciem". W MetaStock dla Windows możesz z łatwością odtworzyć wskaźniki SMARS omówione w artykule Tilleys. Najpierw wybierz Indicator Builder z menu Tools w MetaStock 6.5. Następnie wybierz Nowy i wprowadź następujące formuły: Odporność i Wsparcie LookBack: Wejście (quotLook Back Periodsquot, 1,1000,10) Opór: WartośćKiedy (1, Krzyż (Mov (C, LookBack, S), C), HHV (H , LookBack)) Wsparcie: WartośćKiedy (1, Krzyż (C, Mov (C, LookBack, S)), LLV (L, LookBack)) Wsparcie rezystancji PrCnt: Wejście (quotPercentagequot, 0,100,10) LookBack: Input (quotLook Back Periodsquot , 1,1000,10) Odporność: WartośćKiedy (1, Krzyż (Mov (C, LookBack, S), C), HHV (H, LookBack)) Wsparcie: WartośćKiedy (1, Krzyż (C, Mov (C, LookBack, S)), LLV (L, LookBack)) Odporność ((100-prcnt) 100) Wsparcie ((prcnt100) 1) Uwaga: Znacznie łatwiej dostrzec różnicę pomiędzy rzeczywistą linią "Odbieranie" i "Licytacją wsparcia" oraz "Odporność" i "Wsparcie" F quot linie, jeśli zmienisz styl i kolor jednego z nich. Aby wyświetlić wskaźniki w Metastock 6.0 6.5 Przeciągnij wskaźnik quotMoving Averagequot z Indicator QuickList do okna cenowego. Wybierz Simple jako metodę, wprowadź przedziały czasu, a następnie kliknij OK. Teraz przeciągnij wskaźnik quotResistance i Supportquot z QuickList do okna cenowego. Zostaniesz poproszony o wprowadzenie okresów quotback Backback. Powinieneś wybrać te same przedziały czasowe, które były używane z quotMoving Averagequot. Na koniec przeciągnij wskaźnik quotResistance i Support Fquot do okna ceny. Zostaniesz poproszony o wprowadzenie okresów typu quoterCapture i quotShook Backback. Jeśli chciałbyś, aby wskaźnik był 10-krotną różnicą w porównaniu z linią "Odbieranie" i "Kwota wsparcia", wpisz "10". Powinieneś wybrać te same przedziały czasowe, które były używane z kwotowaniem "Średnia Średnia". Następujące formuły MetaStock pochodzą z opublikowanego w styczniu 1998 r. Artykułu TASC "Techniki wygładzania" w celu uzyskania dokładniejszych sygnałów, autorstwa Tila Tillsona. Zapoznaj się z jego artykułem do interpretacji. quotWięcej wyrafinowanych technik wygładzania można wykorzystać do określenia trendu rynkowego. Lepsze rozpoznawanie trendów może prowadzić do dokładniejszych sygnałów handlowych. WIDZECZNOŚĆ Dowództwa Kosmicznego Odkryte polecenie nawigacyjne NAVY Odnalezione Dowództwo Morskie Dowództwo Prezentacja Pegaza Uwaga: będzie to duży post i zajmie mi trochę czasu, aby przesłać wszystkie materiały i sprawdzić linki i błędy więc proszę wstrzymać się z publikowaniem, aż skończę, dziękuję również za wrażliwość dodam ten alert. większość linków, które nie znajdują się w mojej witrynie, to linki. MIL, więc nie mówię, że cię nie ostrzegałem Wielu z was wie, że od lat John i ja nalegaliśmy, by istniał tajny program astronautów. Nadużywaliśmy przez te wszystkie lata, ale dziś nadszedł czas, aby przedstawić argumenty przemawiające za tym. Twierdzimy, że US NAVY jest odpowiedzialna za istnienie Dowództwa Kosmicznego USAF, tak jak w Star Trek jest to NAVY, który dowodzi flotą kosmiczną. Gary McKinnons twierdzi, że nie jest to, że znalazł UFO lub technologię darmowej energii UFO, jego jedynym żądaniem jest to, że zobaczył zdjęcie jednego z tych statków kosmicznych. i znalazłem listę nie-ziemskich oficerów. nie były to ET, ale kęsy w kosmosie przez NASZE siły zbrojne. Więc zacznijmy naszą podróż. Ponieważ jest to dla mnie ogromna praca, proszę wybacz, jeśli z początku trochę skoczę, starając się to uporządkować. Zacznę od czegoś, co wysłał mi Weed Wacker. Teraz Weed jest sceptykiem i mam nadzieję, że nie zawstydzę go (do tego). To, co przysłał, to film o Mechaniźu Orbitalnym. podstawowa dobra produkcja dla początkujących. Jednak w tym filmie ważne jest kilka sekund pierwszych napisów. dlatego pomyślał o mnie, ze szczęką ciągnącą po ziemi. Lot Kosmiczny: Zastosowanie Mechaniki Orbitalnej AVA18245VNB1 - 1994 W napisach otwierających widzimy, że Dowództwo Żeglugi Morskiej znajduje się na POWYŚCIE NASA. Ten film został mi przedstawiony przez Weeda Wackera, członka ATS. Zwykle był sceptykiem, został podłączony do tego filmu, aby zdemaskować temat. ale kiedy zobaczył początkowe kredyty i był zszokowany. więc wysłał to do mnie. To te małe ciekawostki, które układają puzzle i pozwalają zobaczyć cały obraz. Chociaż od lat mówimy, że US NAVY kieruje prawdziwym programem kosmicznym, a NASA jest po prostu ładnym frontem dla publiczności, dopóki nie zobaczyłem tego filmu, ani ja, ani moja drużyna nie natknęliśmy się na ten emblemat wcześniej (patrz poniżej). Statek kosmiczny McKinnona i nie-ziemscy oficerowie. Jego największym błędem było wejście tylnymi drzwiami. to naprawdę wkurza ich, a on płaci za to cenę, ale NAVY jest o wiele bardziej interesująca niż NASA, a jeśli dobrze je zaprosisz, byłbyś zaskoczony tym, co dostałeś. Tak, jak na statek kosmiczny lub flotę. Wiele z nich napomknęło o tym przez lata, a nazwa Warden Solar zadzwoni do wielu dzwonów i sprawi, że inni będą jęczeli. Nie wierzę, że jest to prawdziwa nazwa projektu, ale mówi, że nie jesteśmy jedynymi na tym szlaku. Pamiętajmy, że jak na razie niewiele jest trudnych dowodów. ale z biegiem lat pojawiły się rzeczy, które nas wspierają. będziesz musiał śledzić całą prezentację, aby zobaczyć wszystkie elementy układanki i związać je ze sobą. Informacja czasami daje nam wskazówki z dziwnych miejsc. na przykład w oświadczeniu Dowództwa Sił Powietrznych otrzymujemy tę małą podpowiedź. W komunikacie prasowym Air Force Space Commands. Po punkcie kontaktu. istnieje interesujące odniesienie. Ostrzał rakietowy i operacje kosmiczne zostały połączone, aby utworzyć Dowództwo Sił Powietrznych w 1982 roku. Podczas zimnej wojny operacje kosmiczne koncentrowały się na ostrzeżeniu przed pociskami oraz dowództwem i kontrolą dla przywódców krajowych. W 1991 r. Operacja "Pustynna burza" kładła nacisk na nowe polecenia dotyczące wsparcia dla wojownika. Siły ICBM zostały połączone w AFSPC w 1993 roku. Punkt kontaktowy Dowództwo Sił Powietrznych Dowództwo Spraw Publicznych 150 Vandenberg St. Suite 1105 Peterson AFB, CO 80914-4500 (719) xxx-xxxx lub DSN 692-3731 W kulturze popularnej W popularnej telewizji serii Stargate SG-1 i Stargate Atlantis, Program Stargate jest prowadzony przez Dowództwo Sił Powietrznych. Plaster Command Command AF był noszony na mundurze personelu na pokładzie Prometeusza, pierwszego krążownika bojowego kosmicznego o znaczeniu kosmicznym. Ten lotnik został uaktualniony do nowszego, ale cytat nadal jest kopiowany na Wikipedii. Jeśli chodzi o tych niezwiązanych z ziemią oficerów, podpisuję się pod pismem z magazynu Space Space. High Frontier The Journal for Space and Missile Professionals W wydaniu Lato 2004 jest to ogłoszenie. Dowództwo Kosmiczne Generał Kevin P. Chilton Dowódca, Dowództwo Sił Powietrznych Utworzenie Dowództwa Kosmicznego jest kamieniem milowym w ewolucji wojskowych operacji kosmicznych. Przestrzeń to miejsce - jak ziemia, morze i powietrze - teatr działań. I była to tylko kwestia czasu, zanim przestrzeń zostanie potraktowana jako taka. Generał James V. Hartinger, 1 września 1982 r. Dowództwo Marynarki Wojennej Od połowy lat osiemdziesiątych, równolegle z rozwojem operacji kosmicznych i programami inżynierii kosmicznej w Naval College podyplomowym, marynarka wojenna zaczęła kodować oficerów jako kosmicznych subspecjalistów. W związku z tym, że kody przestrzeni kosmicznej zostały przydzielone poszczególnym oficerom kęsów na numerowanych sztabach Floty i na polecenie na lądzie, usługa zaczęła przypisywać członkom Marynarki wojennej kody pasujące do tych pozycji. Niedawno marynarka wojenna podjęła starania, aby zbudować kadrę inteligentnych oficerów kosmicznych, zatrudnić personel i pracowników cywilnych. Naval Space Cadre składa się z oficerów służby czynnej i rezerwowych marynarki wojennej i korpusu piechoty morskiej, a także z personelu pokładowego, a także z cywilnych pracowników marynarki wojennej z wielu dziedzin kariery, którzy spełniają obowiązkowe standardy edukacji, szkoleń i doświadczenia ustalone dla określonego poziomu certyfikacji. Kadr marynarki wojennej to odrębna jednostka wiedzy, poziomo i pionowo zintegrowana w aktywnej służbie marynarki wojennej i korpusu piechoty morskiej, rezerwy i cywilne społeczności pracownicze zorganizowane w celu operacjonalizacji przestrzeni Początkowa identyfikacja kadry rozpoczęła się w połowie 2001 r. Wraz z przygotowaniem kadry marynarki wojennej Zgrupowanie zakończyło się komunikatem morskim (NAVADMIN 20173 DTG211435Z 3 LIPIEC) ogłaszającym pierwszych 700 oficerów z kadry. Funkcjonariusze ci zostali zidentyfikowani kodami subspecjalności 6206, Operacji Kosmicznych i 5500, Inżynierii Systemów Kosmicznych lub dodatkowym oznaczeniem kwalifikacji VS1, VS2, VS3 lub VS4. Identyfikacja członków kadry naukowej i cywili jest trudniejsza, ponieważ grupy te nie mają określonych identyfikatorów przestrzeni, takich jak oficerowie. Około 265 kęsów jest obecnie identyfikowanych jako wały kosmiczne. Te zadania są w marynarce wojennej, wspólnych i organizacjach zajmujących się bezpieczeństwem narodowym. Członkowie kadry kosmicznej są obecnie przydzielani na arenie National Security Space, w tym do Narodowego Biura Rozpoznania, Architekta Bezpieczeństwa Bezpieczeństwa Narodowego, Integracji Przestrzeni Bezpieczeństwa Narodowego, Wspólnego Biura MILSATCOM, a także we wszystkich organizacjach Marynarki Wojennej zajmujących się przestrzenią kosmiczną. High Frontier The Journal for Space and Missile Professionals Lato 2004 Nie ma dostępnej kopii online, ale wyślę plik PDF do poważnych zapytań. Więc już go mamy. pierwszych 700 członków kadry oficerskiej, zidentyfikowanych kodami podspecjalności 6206, Space Systems Operations i 5500, Space Systems Engineering. z 265 kęsami obecnie określonymi jako wały kosmiczne. Te zadania są w Navy. Okay z powrotem do historii Jeśli poczekamy wystarczająco długo. w końcu prawda wychodzi. Kiedy John był tutaj, mieliśmy wątek na tajnych misjach wahadłowca. Miałem zamiar zrobić wątek na pierwszym korpusie tajnych astronautów, by udowodnić, że PBS NOVA zgarnął nas z Astrospiami. Przysięgam, że węszą w moim komputerze. Ale do diabła, nie mam nic przeciwko, ponieważ dzięki swoim zasobom i wiarygodności mogliby wykonywać tę pracę lepiej, niż ja kiedykolwiek mogłem. a od tego czasu nikt mnie nie niepokoi o istnienie tajnych astronautów. Wyobraźcie sobie, że gdyby nam to minęło 50 lat, to co muszą nam jeszcze powiedzieć? Tajemniczy kredyt astronautów: NASA Poznaj ośmiu astronautów z programu Manged Orbiting Laboratory. Ktoś wysłał mi zdjęcie z autografem. nie list, nie ma adresu zwrotnego. tylko zdjęcie. To było podobne do tego. standardowe zdjęcie prasowe podpisane przez NASA. Astronauta Richard Naprawdę Dlaczego on jest ważny Cóż, dopóki nie dostałem zdjęcia i nie spojrzałem na niego (znowu), nie zwracałem na niego uwagi, poza tym, że był wymieniony jako jeden z Tajemnych Astronautów w sekcji Astrospies i włożył go na na półce, by tak rzec, aby później podjąć działania następcze. Czasami tak pogrzebałem dane, że od czasu do czasu zapominam odkurzyć tę półkę. więc ktokolwiek przysłał mi to zdjęcie. DZIĘKI za szturchnięcie Oto, co mieliśmy na półce. Vice Adm. Richard H. Truly, United States Navy Trudno opisać, jak ciężko pracowaliśmy przy MOL. Ale to była ogromna część naszego życia i ze względu na to, jak ciężko pracowaliśmy, wszyscy dowiedzieliśmy się dużo o sobie i naszych umiejętnościach. - Vice Adm. Richard H. Naprawdę edytuj w dniach 15-8-2009 przez Zorgona Astronauta Richard Truly Richard Harrison Naprawdę urodził się 12 listopada 1937 roku w Fayette w stanie Missisipi. Uczęszczał do Georgia Institute of Technology, gdzie otrzymał licencjat z inżynierii lotniczej w 1959 roku. W 1964 roku uczęszczał na to, co jest teraz pilotem Air Force Test School w Edwards Air Force Base w Kalifornii, gdzie później został instruktorem. Po MOLu Richard Truly dołączył do NASA i został członkiem ekipy wsparcia astronautów i komunikatora kapsuł (CAPCOM) dla wszystkich trzech załogowych misji Skylab w 1973 roku, a także misji Apollo-Sojuz z 1975 roku. Pilotował Columbia w 1981 r. I służył jako dowódca promu kosmicznego podczas trzeciej misji Challengera w 1983 r., Po czym opuścił NASA i został pierwszym dowódcą Dowództwa Kosmicznego Marynarki Wojennej. Wrócił do NASA miesiąc po tragicznej eksplozji Challengera, która zabiła wszystkie siedem załóg w 1986 roku. Prawdziwie został szefem agencji przez trzy lata, począwszy od 1989 roku. Już jako emerytowany wiceadmirał w marynarce wojennej USA, od tego czasu ma wielu wybitnych stanowiska akademickie, rządowe i zawodowe. Jego dekoracje to Medal Obrony Zasłużonych Usług, Medal Obrony za Przełożoną, dwa Legiony Zasługi oraz Znakomity Krzyż Latający, a także wiele wyróżnień z NASA. Naprawdę opuścił NASA w 1983 roku, aby zostać pierwszym dowódcą Dowództwa Kosmicznego Marynarki Wojennej, Dahlgren, Virginia. Pracował jako administrator NASA w latach 1989-1992. Od pierwszego programu Secret Astronaut, przez wiceadmirała NAVY, przez dyrektora NASA, do pierwszego dowódcy NAVY SPACE COMMAND, powiedziałbym, że ustaliliśmy, że program jest prawdziwy. Teraz w ostatnim wątku w ATS zaprezentowałem materiał, który był interesujący. NIE powiem, w jakim wątku lub o co chodzi. W trakcie wątku skontaktowało się z kilkoma osobami, a dialog nadal trwa. Podczas tej rozmowy e-mailowej jedną z osób, które mi przedstawił był John L Philips. Powodem, dla którego jestem tajemniczy, jest to, że te drzwi zostały otwarte dla mnie i nie miałem jeszcze okazji wejść i zobaczyć, dokąd to prowadzi. więc nie mam zamiaru zepsuć niczego dobrego. Jednak, ponieważ następujący dokument jest w domenie publicznej. Rzucę to tutaj jako interesujący zbieg okoliczności i sprawdzę później, kiedy będę mógł. (są tu także obserwatorzy) Nie twierdzę również, że jego obecny status jest inny niż to, co jest napisane w poniższej biografii NASA. więc nie wkładaj słów do ust. Po prostu nie wierzę w zbieg okoliczności John L. Phillips John L. Phillips (Ph. D.) NASA Astronaut DANE OSOBOWE: Urodził się 15 kwietnia 1951 r. W Fort Belvoir w stanie Wirginia, ale uważa, że ​​Scottsdale w Arizonie jest jego rodzinnym miastem. Żonaty z dawną Laurą Jean Doell ze Szkocji w Nowym Jorku. Oni mają dwójkę dzieci. Cieszy się jazdą na nartach, pływaniem, kajakiem i wędrówkami. WYKSZTAŁCENIE: Ukończył liceum Scottsdale w Arizonie w 1966 roku otrzymał tytuł B. S. stopień z matematyki uzyskany w amerykańskiej Akademii Marynarki Wojennej w 1972 r. w systemach lotniczych z University of West Florida w 1974 r. i M. S. i doktorat w geofizyce i fizyce kosmicznej z UCLA odpowiednio w 1984 i 1987 roku. SPECJALNE WYRÓŻNIENIA: National Merit Scholar ukończył z wynikiem 906 w USNA nagrodę NASA Space Flight Medal, Medal NASA Distinguished Service, Medal Gagarinu, Dyplom z Komarowa, Narodowe Laboratorium Los Alamos Distinguished Performance Award i różne nagrody wojskowe. Mamy tutaj wybitnego dżentelmena, który jest astronautą NAVYNASA, posiada dwie najwyższe nagrody RUSSIAs w kosmosie i ma połączenia Los Alamos. DOŚWIADCZENIE LOTU SPACE: STS-100 Endeavour (od 19 kwietnia do 1 maja 2001). Podczas 12-dniowej misji na orbicie 187 załoga z sukcesem dostarczyła i zainstalowała robotyczne ramię Canadarm-2. Dostarczyli także eksperymenty i dostawy na pokładzie wielozadaniowego modułu logistycznego Raffaelloon, który odbył swój dziewiczy lot. Phillips był inżynierem lotu AscentEntry Flight i był koordynatorem działań intravecicular podczas dwóch spacerów kosmicznych. ISS Expedition 11 (15 kwietnia do 10 października 2005). Phillips wystartował z kosmodromu Bajkonur w Kazachstanie na pokładzie Sojuz TMA-6 i służył jako oficer naukowy NASA i inżynier pokładowy na pokładzie ISS. Podczas sześciomiesięcznego pobytu na pokładzie ISS załoga kontynuowała konserwację stacji, pracowała z eksperymentami naukowymi, odbyła spacery w rosyjskich skafandrach kosmicznych ze śluzy Pirs i gościła powrót do lotu z kosmicznego wahadłowca (STS-114). Załoga ISS-11 wylądowała w Kazachstanie 10 października 2005 roku. W trakcie swojej drugiej misji Phillips zarejestrował 179 dni i 23 minuty w kosmosie, w tym EVA w sumie 4 godziny i 58 minut. Przeczytaj resztę tutaj. jego niesamowita kariera. John Phillips Bio jsc. nasa. gov. Jego obecny opis stanowiska. specjalista od robotyki wspierający operacje na obecnych i przyszłych misjach. Myślę, że dam mu znać, że Scotty nawet nosi małe podobieństwo. Dla PO będę tylko wymieniał te programy z krótką referencją, a później będę je rozszerzał. Jest wiele rzeczy związanych z programem kosmicznym NAVY, a to zajmie trochę czasu, aby połączyć OBSERWATORIUM NAWALNEGO Z NASZYCH ZNAKÓW Wszyscy wiemy o tym i jest już od grudnia 1830 Amerykańskie Obserwatorium Marynarki (USNO) jest jednym z najstarszych agencje naukowe w Stanach Zjednoczonych. Zlokalizowany w północno-zachodnim Waszyngtonie, D. C., jest jednym z nielicznych obserwatoriów astronomicznych znajdujących się w obszarze miejskim w czasie jego budowy, był on daleki od zanieczyszczenia świetlnego generowanego przez (wtedy mniejsze centrum). Założone na zlecenie Sekretarza Marynarki Wojennej Oddziału Johna 6 grudnia 1830 r. Jako Zajezdnia Wykresów i Instrumentów, Obserwatorium powstało z pokornych początków. Umieszczony pod dowództwem porucznika Louisa M. Goldsborough, z rocznym budżetem 330, jego podstawową funkcją było przywracanie, naprawa i ocena przyrządów nawigacyjnych. Został przekształcony w obserwatorium narodowe w 1842 r. Na mocy ustawy federalnej i przywileju Kongresu w wysokości 25 000. Porucznikiem Jamesem Melville'em Gillissem powierzono projekt, który został ukończony w 1844 roku. Główną misją obserwatorów była troska o chronometry morskie, mapy i inny sprzęt nawigacyjny w Stanach Zjednoczonych. Skalibrował chronometry na statkach, mierząc czas przejścia gwiazd przez południk. Początkowo położone w centrum Foggy Bottom (w pobliżu pomnika Lincolna) obserwatorium zostało przeniesione do obecnej lokalizacji w 1893 roku, na szczycie Wzgórza Obserwatorium z widokiem na Massachusetts Avenue, wśród doskonale okrągłych terenów. Teraz USNO od dawna było wskazywane przez ludzi konspiracyjnych, jako będących w tym gębie. John Lear z HansenSimon Newcomb Lunarowa atmosfera radzi Z Sitchinowi, używając R Harringtona, do manipulowania czasem w Planet X w Filadelfii, a obecnie zajmuje się skracaniem czasu i Czynnik rezonansu Schumanna Oto kilka linków: United States Naval Observatory (USNO) - Główna oficjalna strona usno. navy. mil. United States Naval Observatory (USNO) - Portal czasu usno. navy. mil. edit on 15-8-2009 by zorgon Teraz ten jeden, przynajmniej na ATS, powinien już wiedzieć, że Clementine NIE jest programem NASA. ale na całym forum i w Internecie wciąż widzę, że ludzie mówią, że to był koncert NASA. Cóż, nie był to program wojenny Star Wars. Laboratorium Badawcze Marynarki Wojennej nie jest powiązane w żaden sposób z żadną organizacją sprzedającą nieruchomość księżycową lub areał na Księżycu. NRL nie angażuje się, oficjalnie ani nieoficjalnie, w świadczenie usług posprzedażnych na zakup nieruchomości księżycowych od ambasady Lunarnej, jej franczyzobiorców lub podobnych organizacji. Disputes arising from the purchase of lunar property from such organizations must be resolved with the seller directly. NRL was responsible for the design, manufacture, integration, and mission execution of the Clementine spacecraft for the Ballistic Missile Defense Organization. During its two-month orbit of the Moon in 1994, Clementine captured 1.8 million images of the Moons surface. The Laboratory provides the Clementine Lunar Image Browser as a courtesy to scientific researchers, as well as the general public, and you are welcome to browse the over 170,000 images that are available. Version 1.5 of the Navy Browser. (the one everyone uses for anomaly hunting) cmf. nrl. navy. mil. Notice the URL is NRL. NAVY. MIL No NASA Version 2.0 of the Navy Browser. nrl. navy. mil. Notice the URL is NRL. NAVY. MIL No NASA In actual fact the Clementine data produced color images, covered here. Revealed for the First Time Color Images of the Moon from Clementine Satellite abovetopsecret. The Clementine Satellite - PDF - Official LLNL report and statistics llnl. gov. U. S. Department of Defense Office of the Assistant Secretary of Defense (Public Affairs) News Transcript Tuesday, December 3, 1996 Subject: Discovery of Ice on the Moon Q: Can you update us on. The colonel mentioned that by the time he got to the office in 1989 it was pretty clear the U. S. wasnt going to deploy a space-based missile defense system. Whats happened to the Star Wars program How is your office changing What are you using this technology for today A: Although many of the space platforms that were really envisioned as part of the Strategic Defense Initiative Organization program back in 1989 have not been supported and continued because of the change in emphasis, including the name of the organization to the Ballistic Missile Defense Organization, were now primarily focused on theater missile defense and national missile defense -- defense of the U. S. continent and Alaska and Hawaii with a much reduced threat. And of course we have the demise of the Cold War to thank for that. However, there is still a space-borne component to our theater and national missile defense architecture, and that is the space-based infrared satellite. That will allow us to do tracking, particularly in boost and in the mid-course phases of the trajectory of a ballistic missile. So all the technologies that were demonstrated on Clementine are technologies that we would hope would be either used or would be the grand-daddies of technologies that we would eventually use in our space surveillance platforms. So that part of the space architecture is still very much alive. Q: But the role of the so-called Star Wars system now has shifted to more of a surveillance, as opposed to shooting something down. A: No, it is still based on shooting down ballistic missiles by impact with interceptors. So this technology is important in order to track and pass the track files on to the interceptors in order to allow them to hit their targets. So its very much a part of the architecture. Q: That translates to what in volume A: We were very conservative in the press release, but if you take basically 100 square kilometers by roughly 50 feet, you get a volume of something like a quarter of a cubic mile, I think its on that order. Its a considerable amount, but its not a huge glacier or anything like that. Q: Can you compare that with something you know A: Its a lake. A small lake. On Wherefore Art Though Clementine. The Clementine spacecraft has many mysteries surrounding it, but the name sake. where is Clementine Lost and gone forever Well not quite. Here is our work on Clementine. Wherefore Art Thou Clementine - The Mystery of Clementine Explored thelivingmoon. Q: Where is Clementine now A: The spacecraft, as you know, from the name Clementine, is only supposed to be here for a short period of time and be lost and gone forever, so it was intended for a very short period of time after this lunar mission, did a rendezvous with the earth, and shortly after that was shifted by the moons gravity and continued a flight which will bring it back near the earth about nine years from now. So its an 11 year total flight around the sun. So basically its moving like a little planet around the sun, and it will bring it back close to us in about nine years. Its two years since it left us so it will be another nine years before its back. But its not useful right now. The mission is finished. Q: But unlike its namesake, its not lost and gone forever. It will be back A: It will be back, but its not a useful spacecraft any more. The above quotes are from the Pentagon Press Release issued in 1996 but not online till Oct 2006 DoD News Briefing Presenter: Dr. Dwight Duston, Assistant Deputy for Technology, Ballistic Missile Defense Organization defenselink. mil. edit on 15-8-2009 by zorgon THE TETHER INCIDENT For some time in many threads, mostly those dealing with the infamous STS 75 Tether Incident and NASAs bungling loss of the satellite, I have dropped hints about the OTHER tether satellite flown by the NAVY only a month later. It was used for two years for laser experiments and as far as I know it is still being spotted by amateurs, at least it was a few years ago. It first flew in 1996 and I have an amateur video of it passing over in the summer of 2004 with an Astrovid StellaCam EX by apolloisgo (link later) Now very few people even asked me about it and yet info on it was even available back then in public channels. Its one of my pet peeves, people saying they are searching for truth, but then even when you rub their noses into it, they still dont see it. I got the usual ribbing from certain skeptics, who didnt even bother to do a simple search. Well this satellite was flown and they shot lasers at it from two locations on Earth. One was the Advanced Electro Optical System (AEOS) Mount Haleakala, Maui, Hawaii run by the Air Force and this was the location they took photos of the satellite in orbit. The other location was the Starfire Optical Range in Kirtland AFB in New Mexico thelivingmoon. There is a similar facility in Russia that I knew about and managed to find on Google Earth It is called OKNO ELINT and on that project the Russians said we had THREE. well I found Starfire and AEOS no problem, but the third eluded me though it was already on my list. HELSTAF High Energy Laser Systems Test Facility - White Sands, New Mexico thelivingmoon. This was the Russian Article I used to track it down on GE enews. ferghana. ru. OKNO Sourcebook - 242 page PDF report fas. org. So back to the tether. the purpose of firing the lasers at it was to test the concept of transmitting power to satellites in space via high powered lasers. The new optical systems compensate for atmospheric dispersal. My next thread will deal with that topic in detail. and a little later I will show you one more awesome NAVY project. The NAVY Tether is called TiPS Tether Physics and Survivability experiment. Some public links. Now those sites will give you basic details. Graphic of the US Naval Research Laboratorys TiPS tether satellite. Note that only a small part of the 4 km tether is shown deployed. This is the actual size of tether cable But when I first found this a few years a go the info was on this URL (which now gives you a redirect) Catchy URL to be sure, eh I contacted the NAVY webmaster for permission to reprint the data as it was now declassified and received that permission Here are the links to the data and photos Tether Physics and Survivability Experiment (TiPS) - Naval Research Laboratory thelivingmoon. Processed TiPS Images From MSSSAMOS - Naval Research Laboratory thelivingmoon. Tether Physics and Survivability Experiment (TiPS) - Naval Research Laboratory projects. nrl. navy. mil. - (the hyperspace. nrl. navy. mil. link is still on this page - I didnt make it up ) Video of lasing the Satellite Download TiPS MPEG Video (382 kb) thelivingmoon. Youtube Capture by an amateur in 2004 but just posted to youtube in 2007 edit on 15-8-2009 by zorgon NRL - The High Frequency Active Auroral Research Program nrl. navy. mil. Navys Record-Breaking Railgun Shot Screen capture from the Video. notice the logo on the target shows the rail gun in space. Can someone translate that Latin Navys Record-Breaking Railgun Shot Video Naval Surface Warfare Center, Dahlgren, Virginia nswc. navy. mil. Topic b. Development of new technologies that would allow commercial space-based or conventional aircraft sensors to detect man-made structures hidden beneath heavy (triple canopy) jungle foliage. Consideration will be given to low cost, low footprint concepts that can be prototyped in less than 6 months. Space to NAVELEX Exploration Helps Drive Navy Reorganization Efforts to conquer space began in earnest in the early 1960s when the first U. S. manned spacecraft Freedom 7 was successfully launched and recovered May 5, 1961. Both Astronaut Alan Shepard and the Freedom 7 were flown safely by helicopter to the deck of the USS Lake Champlain within 11 minutes of landing. With that successful recovery, President John F. Kennedy challenged the nation to land men on the moon and return them safely to earth before 1970. Space Program drives Navy to reorganization. In answer to the challenge, NASA launched the Apollo Space Program. It soon became apparent that supporting the space program would be a significant priority for the Navy. Indeed, support of the space program and the launching of its own satellite navigation systems drove a number of organizational changes within the Navy. Along with some existing challenges the Navy had been battling for some time. Naval Space Command (NAVSPACECOM) (U) (U) Headquartered at Dahlgren, Virginia, NAVSPACECOM began operations October 1, 1983. NAVSPACECOM uses the medium of space and its potential to provide essential information and capabilities to ashore and afloat naval forces by: - Operating assigned systems - Executing missions assigned by USCINCSPACE - Advocating naval warfighting requirements in the joint arena and - Advising, supporting, and assisting naval services through training and by developing space plans, programs, budgets, policies, concepts, and doctrine. (U) NAVSPACECOM also serves as the naval service component of the United States Space Command (USSPACECOM), established in 1985. Component responsibilities include operating assigned space systems to provide surveillance and warning, as well as providing spacecraft telemetry and on-orbit engineering support. In addition, NAVSPACECOM provides facilities and staffs a command center 24 hours a day to serve as the Alternate Space Control Center (ASCC) for USSPACECOMs primary center located at Cheyenne Mountain Air Force Base, Colo. ASCC missions include operational direction of the entire global Space Surveillance Network for CINCSPACE. The ASCC also detects, tracks, identifies, and catalogs all man-made objects in space and provides ephemeris on these objects to approximately1,000 customers. It also monitors the space environment and informs owners and operators of U. S. and allied space systems of potential threat to their assets by continuous liaison with the systems operations centers. Finally, NAVSPACECOM provides administrative oversight for two Echelon 3 operational Navy activities: the Naval Satellite Operations Center (NAVSOC) and the Fleet Surveillance Support Command (FLTSURVSUPPCOM). US Naval Space Command Space Surveillance System One of the lesser-known assets of the US Space Commands world-wide space surveillance system is the 217 MHz NAVSPASUR fence across the southern US. The following items from various sources (indicated in italics) give some basic information about the system, its history and use. US Naval Space Command Space Surveillance System fas. org. US NAVY Program Executive Office Space Systems PEO Space Systems Organization Info The PEO Space Systems mission is to develop, acquire, integrate, produce, launch, test and provide operational support to reliable, affordable, flexible, effective and seamless space systems that support DOD and U. S. agencies to enable joint, coalition, combined and naval operations. PEO Space Systems coordinates all Department of the Navy space research, development and acquisition activities. US NAVY Program Executice Office Space Systems enterprise. spawar. navy. mil. Naval Space Command The naval services growing dependence on space prompted the Secretary of the Navy to establish a new command that would consolidate space activities and organizations that operate and maintain naval space systems. This new organization - the Naval Space Command - was commissioned on October 1, 1983. It was a decisive move to bring together several activities under a single command to strengthen operational control, provide a central focal point for naval space matters, and more effectively guide future operational uses of space. No I am not suggesting the Japanese Lunar Orbiter is connected to the NAVY. In the spacecraft Kaguya SELENE stands for SELenological and ENgineering Explorer JAXA SELenological and ENgineering Explorer KAGUYA (SELENE) jaxa. jp. The NAVY SELENE stands for SpacE Laser ENergy Why this odd acronym Good question. maybe it does have something to do with the Japanese Moon Ship after all Information is difficult to find but we have some things to go on. Exuberant1 has been working to track this one down, as well as other info on lasers to transfer power from Earth to satellite, from satellite to ground, and from satellite to satellite. SELENE has the ability to send POWER TO THE MOON. think about the implications of THAT. NAOMISELENE site design Hislop, Arthur Q. Malik, John L. Richter, David J. Bennett, Harold E. Proc. SPIE Vol. 2376, p. 297-314, Laser Power Beaming II, Harold E. Bennett Richard D. Doolittle Eds. The Birchum Mesa SELENE (Space Laser Energy) facility will be dual use facility as it provides for progressive development of high power Free Electron Lasers (FEL) and commercial laser beam power transfer to space-borne vehicles. The facility will be comprised of SELENE mainsite containing two laser system bays and supporting facilities with transport tunnels coupling to the Beam Transfer Optical System (BTOS) which is the active optical array space beam director with its supporting facility. The first generation commercial grade laser will operate at 100 kW of quasi-CW laser power with a planned growth to 10 MW of output power. The BTOS beam director will direct a focus compensated laser power beam to provide power service to space vehicles within a - 50 degree (half angle from zenith) tracking cone service field. An underground hardened site is proposed for this facility to mitigate any potentially hazardous effects from operation of a very high energy CW electron beam laser, to protect the facility from inadvertent weapons splashdown during range Test and Evaluation operations, and to create minimum environmental impact upon historical and ecological elements of the range. Advantages of China Lake for laser power beaming Bennett, Harold E. Proc. SPIE Vol. 2376, p. 280-296 Laser Power Beaming II, Harold E. Bennett Richard D. Doolittle Eds. The site for the proposed National Advanced Optic Mission Initiative (NAOMI) facility will be in the mountains near China Lake, California. This location has 260 clear days per year (more than any other feasible site in the U. S.). In 1993 there were 5 completely overcast days all year. The area near the proposed site is unpopulated. The solar insolation in this general area is the greatest of any area in the United States. The NAOMI system will be installed at an altitude of 5600 feet. Astronomical seeing there is excellent. Even at a less favored site than that planned for NAOMI the average Fried seeing coefficient ro is 12 cm in the visible region and 20 cm values of ro (comparable to the best observatories) are commonly observed. The area is centrally located in and entirely surrounded by one of the largest restricted airspacemilitary operating airspace complexes in the United States, 12 of the entire airspace in California. Electrical power is available from either the nearly Coso Geothermal plant, second largest in the United States, or from the even closer cogeneration plant at Trona, California. Cooling water can be obtained from the nearby area or from the lake itself. Although a dry playa, the lake has a high brackish groundwater level. Most of the commercial satellites over the U. S. could be reached by a lasertelescope system located on government land at the Naval Air Weapons Station (NAWS) military reservation at China Lake. This telescopelaser system will be a prototype for five other systems planned for around the world. The complex will provide laser power beaming to all satellites and put the United States into the position of world leader in satellite technology and power beaming to space. Now the part about beaming power via laser to the Moon Beam Transmission Optical System (BTOS) SELENE The development of the Beam Transmission Optical System (BTOS) is a portion of a larger project entitled SpacE Laser Electric ENErgy (SELENE). The SELENE project utilizes a high energy, free electron laser to transfer energy from the ground to orbiting spacecraft or other space targets such as a lunar base 1 BTOS is the systcm that delivers the beam energy from the laser to the target. The primary mission objective of SELENE is to provide energy for operation of geosynchronous satellites including steady-state power for operations, periodic low power for station keeping, periodic high power during eclipses, and high power for transfer orbit apogee burn. 2 SELENE will also provide energy for operation at middle and high earth orbits (MEO) of 3000 kilometers. Another possible usage for SELENE will be to provide energy to a laser-augmented solar-electric orbit transfer vehicle wherein a low earth orbit (LEO) vehicle transfers to geosynchronous orbit (GEO) through a spiral trajectory path. Finally, SELENE will provide continuous steady-state energy for operation of a lunar base. 3 Structural Design Considerations for the Beam Transmission Optical System Paul D. MacNeal and Michael C. Lou, Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California As I said I will create a new thread on the LASER POWER Transmission as there is a lot to cover. I just wanted to show the tie in with the NAVY SPACE PROGRAM and the BEAMING OF POWER VIA SUPER LASERS TO SPACE CHINA LAKE Naval Air Warfare Center Weapons Division (NAWCWD) navair. navy. mil. Weapons Division PAO: About China Lake - Ridgecrest navair. navy. mil. Thats all for now. I have lots more to add but I needed to get the thread started. All this data and more is collected on my site. There are many links to sites and papers and it is an on going project, especially as more data is released from the NAVY This just to add because its done. and is NAVY Nothing to do with space And just because its a secret Navy Submarine Base Under the Nevada Desert thelivingmoon. NUWC Naval Underwater Warfare Center - Hawthorne Nevada Division Photo Tour at Gate thelivingmoon. Koniec. for now A practical demonstration of a Laser BTOS system being used to supply power to a sub-orbital craft (a remote-controlled plane): Flights of the lightweight, radio-controlled model airplane inside a large building at NASA Marshall are believed to be the first time that a plane has been powered only by laser energy. The demonstration was a key step toward the capability to beam power to an aircraft, allowing it to stay in flight indefinitely -- a concept with potential for the scientific community as well as the remote sensing and telecommunications industries. As Zorgon pointed out, not all lasers systems need be Earth-based - In some cases (such as moon missions), it would be far more practical to have solar-pumped laser in orbit. It appears that Langley and NASA have taken an interest in the matter: - solar-pumped lasers in lunar orbit would beam power to the lunar surface for conversion into either electricity or propulsion needs. For example, lunar rovers could be much more flexible and lighter than rovers using other primary power sources - Also, laser power could be absorbed by lunar soil to create a hard glassy surface for dust-free roadways and launch pads - Laser power transmission is shown to be a highly flexible, enabling primary power source for lunar missions. Using lasers to make roads and launchpads. think about that. Along with power transfer and generation, such lasers could be also used in mineral and water extraction (ie. water from the small lake). There are many advantages in using such a flexible power-transfer system. What might these lunar orbiting solar-pumped lasers look like But what about power transmission from the Earth to orbiting satellites and the moon, surely that would be noticed. Here is what you would see if you lacked the proper equipment, and you looked into the sky towards and active BTOS system: Unaided, you would see Nothing: But if you were properly equipped, you would see beams rising up to meet with various satellites, some going to the moon, some even further - the beams which meet satellites are probably not from an observatory. Properly aided, your eyes would see something like this: (Jose Escamilla believes that these these may be Space Elevators. This and other such images can be seen in his new Movie Moon Rising) More information regarding Laser Power Beaming can be found here: thelivingmoon. edit on 15-8-2009 by Exuberant1 The Japanese are currently working on a Space Based Power System which converts solar energy into microwave and laser pulses. Let us hope the beams dont stray off-target: Japan Shooting For Space-Based Solar Power TOKYO (Nikkei)--The government will by the end of this year start developing technologies designed to eventually beam electricity from solar panels in space down to the earth. An artists image of a compact satellite for use in an experiment to transmit power down to the earth. (Courtesy of JAXA) A public solicitation for firms to participate in the endeavor will soon be made the companies may be selected as early as next month. The government expects players in the electronics and heavy electric machinery industries to participate. The hope is to commercialize orbital solar power by 2030. Such a system would have such advantages as generating electricity regardless of the weather on the ground. The project will develop technologies to transmit power down to the earth. The idea is to convert solar electricity into microwaves, which would then be converted back into electricity at the surface. Coincidentally, it is starting to look as if the Japaneses KaguyaSelene mission was actually a part of the larger BTOS SELENE program. If this is the case, then the name selection of the probe-set was probably not by chance. More to come. The Europeans are getting in on the action, and will be testing their own Space Based Power system and will assess a laser-based SBPS concept for Earth and for the lunar surface. Small scale science missions laser power transmissions will also be considered. ESA funds technology for Earth and Moon base SBSP The European Space Agencys general studies programme is to assess a laser-based SBPS concept for Earth and for the lunar surface. Small scale science missions laser power transmissions will also be considered. The ESA work will include an assessment of the integration of space-based solar power plants into terrestrial ones, including innovative approaches to orbit selection and methods for the adaptation of terrestrial solar power plants to serve in addition as receiving stations for space solar power plants. According to the European agency direct solar pumped laser technologies offer the option of increasing total laser conversion efficiencies by an order of magnitude and innovative beam control and steering technologies, laser to electricity conversion systems and a combination of parallel data, power transmission techniques are of interest. edit on 15-8-2009 by Exuberant1 Another awesome post Zorgon I appreciate all the hard work you and others have done to bring this thread to us. SF Probably not related but. I used to wonder why on some shuttle missions there have been former Navy Seals members. odd to me because I assumed that it was either Air Force pilots, teachers or Dr. s of some kind but now Im thinking these guys were part of the Navy Space Command maybe posted on Aug, 15 2009 10:26 AM Well done zorgon. One of the most thorough posts its been my pleasure to have read, although Im still only half way through all the information youve bombarded me with. Just one question (forgive me if youve mentioned this and I havent yet read it) but where do you think these space craft launch from Even if they launched from one of the sea based sites surely someone would see it Maybe they have and the launches have been recorded as UFO sightings Once again, well done. NAVY Space Command Uncovered NAVY Space Command Uncovered Naval Space Command A Pegasus Presentation Note: This will be a large post and will take me some time to transfer all the material and check links and errors so please hold off posting until I am done, thanks Also for the squeamish I will add this Alert. most of the links that are not on my site are. MIL links, so dont say I didnt warn you Many of you know that for years John and I have insisted on there being a secret astronaut program. We have taken the abuse all these years but today its time to present a case for this. It is our contention that the US NAVY is in charge despite the existence of the USAF Space Command, just like in Star Trek it is the NAVY that commands the space fleet. Gary McKinnons claim to fame is NOT that he found UFOs or UFO free energy technology, his only claim is he saw a picture of one of those space fleet ships. and found a list of non terrestrial officers. these were NOT ET, but billets in space by OUR armed forces. So lets begin our journey. As this is a huge work in progress for me please forgive if I jump around a little at first trying to put this in order. I will start with something that Weed Wacker sent me. Now Weed Wacker is a skeptic most times, and I hope I dont embarrass him (to much) with this. What he sent was a movie on Orbital Mechanics. a basic nice production for beginners. However what is important in this video is the few seconds of the opening credits. which was why he thought of me, with jaw dragging on the ground. Space Flight: Application of Orbital Mechanics AVA18245VNB1 - 1994 In the opening credits we see that the Naval Space Command is listed ABOVE NASA. This video was brought to my attention by Weed Wacker, a member of ATS. Normally a stanch skeptic, he was linked this video to debunk a topic. but when he saw the opening credits and was shocked. so he sent it to me. Its these little tidbits that piece together a puzzle and let us see the whole picture. Although we have been saying for years that the US NAVY runs the real space program and NASA is just a pretty front for the public, until I saw this film neither I or my team have run across this emblem before (see below) As to Gary McKinnons Space Ship and Non Terrestrial Officers. His biggest mistake was going in the back door. that really gets them pissed off and he is paying the price, but the NAVY is much more forthcoming with info than NASA is and if you ask them nicely, you would be surprised at what you get So as to the Space Ship or Fleet. Many have hinted at this over the years and the name Solar Warden will ring bells with many and cause others to groan. I dont believe that is the actual name of the project, but it makes the point that we are not the only ones on this trail. Now bear in mind that as yet there is little hard proof. but over the years there has come to light things to back us up. you will have to follow the whole presentation to see all the pieces of the puzzle and tie them together. Information sometimes gives us clues from strange places. for example in a statement from Air Force Space Command we get this little hint. In an Air Force Space Commands Press Release. After the point of contact. there is an interesting reference. Missile warning and space operations were combined to form Air Force Space Command in 1982. During the Cold War, space operations focused on missile warning, and command and control for national leadership. In 1991, Operation Desert Storm provided emphasis for the commands new focus on support to the warfighter. ICBM forces were merged into AFSPC in 1993. Point of contact Air Force Space Command Public Affairs Office 150 Vandenberg St. Suite 1105 Peterson AFB, CO 80914-4500 (719) xxx-xxxx or DSN 692-3731 In Popular Culture In the popular TV series Stargate SG-1 and Stargate Atlantis, the Stargate Program is run by the Air Force Space Command. The AF Space Command Patch was worn on the uniform of personnel aboard the Prometheus, Earths first operational deep space battle cruiser. This flier has since been upgrade to a more recent one but the quote is still copied on Wikipedia As to the those Non-Terrestrial Officers I subscribe to a hard copy magazine from Space Command. High Frontier The Journal for Space and Missile Professionals In the Summer 2004 issue there is this notice. Space Command General Kevin P. Chilton Commander, Air Force Space Command The establishment of Space Command is a crucial milestone in the evolution of military space operations. Space is a place--like land, sea, and air--a theater of operations. And it was just a matter of time until space was treated as such. General James V. Hartinger, 1 September 1982 Naval Space Command Beginning in the mid-1980s, concurrent with the development of space operations and space engineering curricula at the Naval Postgraduate School, the Navy began coding officers as space subspecialists. As space subspecialty codes were then assigned to particular officers billets on numbered Fleet staffs and at commands ashore, the service began assigning Navy members with matching codes to those positions. More recently, the Navy has begun efforts to build a cadre of space smart officers, enlisted personnel and civilian employees. The Naval Space Cadre is composed of active-duty and reserve Navy and Marine Corps officers and enlisted personnel, along with Navy civilian employees from a wide range of career fields who meet mandatory education, training and experience standards established for a particular certification level. The Navy Space Cadre is a distinct body of expertise horizontally and vertically integrated within Navy and Marine Corps active duty, reserves and civilian employee communities organized to operationalize space Initial identification of the cadre began in mid-2001 with the standup of the Naval Space Cadre Working Group and culminated in a naval message (NAVADMIN 20173 DTG211435Z JUL 03) announcing the first 700 officer members of the cadre. These officers were identified by the subspecialty codes of 6206, Space Systems Operations, and 5500, Space Systems Engineering or by the additional qualification designator of VS1, VS2, VS3 or VS4. Identification of enlisted and civilian cadre members is more challenging, as these groups do not have specific space identifiers like the officers do. Approximately 265 billets are currently identified as space billets. These jobs are in Navy, joint and National Security Space organizations. Space cadre members are currently assigned throughout the National Security Space arena, including the National Reconnaissance Office, National Security Space Architect, National Security Space Integration, MILSATCOM Joint Program Office, as well as in all Navy organizations that deal with space. High Frontier The Journal for Space and Missile Professionals Summer 2004 There is no online copy available but I will email a PDF to serious enquiries So there we have it. first 700 officer members of the cadre, identified by the subspecialty codes of 6206, Space Systems Operations, and 5500, Space Systems Engineering. with 265 billets currently identified as space billets. These jobs are in Navy. Okay back into History If we wait long enough. eventually the truth comes out. Back when John was here we had a thread on secret shuttle missions. I was about to make a thread on the first corps of secret Astronauts to prove a point, when PBS NOVA scooped us with Astrospies. I swear they snooped in my computer. But heck, I dont mind because with their resources and their credibility, they could do the job better than I ever could have. and since that time no one hassles me about the existence of secret astronauts. Just imagine that if it took 50 years to tell us this, what do they still have to tell us Secret Astronauts Credit: NASA Meet eight astronauts from the Manned Orbiting Laboratory program. Someone mailed me an autographed picture. not a letter, no return address. just the picture. It was similar to this one. a standard NASA signed press release photo. Astronaut Richard Truly Why is he significant Well until I got the photo and looked him up (again), I had not really paid attention to him except that he was listed as one of the Secret Astronauts in the Astrospies section, and had put him on the shelf so to speak for later follow up. Sometimes I do get so buried with data I forget to dust off that shelf from time to time. so whoever sent me that picture. THANKS for the nudge Here is what we had on the shelf. Vice Adm. Richard H. Truly, United States Navy Its tough to describe how hard we all worked on MOL. But it was a huge part of our lives and, because of how hard we worked, we all learned a lot about ourselves and our abilities. - Vice Adm. Richard H. Truly edit on 15-8-2009 by zorgon Astronaut Richard Truly Richard Harrison Truly was born November 12, 1937, in Fayette, Mississippi. He attended the Georgia Institute of Technology, where he received his bachelor of aeronautical engineering in 1959. In 1964, he attended what is now the Air Force Test Pilot School at Edwards Air Force Base in California, where he later became an instructor. Following MOL, Richard Truly joined NASA and became a member of the astronaut support crew and capsule communicator (CAPCOM) for all three manned Skylab missions in 1973 as well as the 1975 Apollo-Soyuz mission. He piloted Columbia in 1981 and served as space shuttle commander during the third Challenger mission in 1983, after which he left NASA to become the first commander of the Naval Space Command. He returned to NASA one month after the tragic Challenger explosion that killed all seven crew in 1986. Truly became head of the agency for three years starting in 1989. Already a retired vice admiral in the U. S. Navy, he has since held a number of distinguished academic, government, and professional positions. His decorations include the Defense Distinguished Service Medal, Defense Superior Service Medal, two Legions of Merit, and the Distinguished Flying Cross, as well as a host of honors from NASA. Truly left NASA in 1983 to become the first commander of the Naval Space Command, Dahlgren, Virginia. He served as NASA Administrator from 1989-1992 So from the first Secret Astronaut program, through Vice Admiral of the NAVY, through directorship of NASA, to the first Commander of the NAVY SPACE COMMAND I would say we have established the program is real. Now in a recent thread here at ATS I presented some material that was interesting. I will NOT say which thread or what it was about. During the course of the thread I was contacted by several people and the dialog is still ongoing. During that email discourse one of the people I was introduced to was John L Philips. The reason I am being cryptic is because this door was opened for me and I have not yet had the chance to step in and see where it leads. so I have no intention of messing up a good thing. However since the following document IS in public domain. I will toss it in here as an interesting coincidence and follow up later when I can. (also there are watchers here ) I also make no claims as to his current status other than what is written in the following NASA biography. so dont be putting words in my mouth. I just dont believe in coincidences John L. Phillips John L. Phillips (Ph. D.) NASA Astronaut PERSONAL DATA: Born April 15, 1951 in Fort Belvoir, Virginia, but considers Scottsdale, Arizona to be his hometown. Married to the former Laura Jean Doell of Scotia, New York. They have two children. Enjoys skiing, swimming, kayaking, and hiking. EDUCATION: Graduated from Scottsdale High School, Arizona, in 1966 received a B. S. degree in mathematics from the U. S. Naval Academy in 1972 an M. S. in aeronautical systems from the University of West Florida in 1974 and an M. S. i doktorat in geophysics and space physics from UCLA in 1984 and 1987, respectively. SPECIAL HONORS: National Merit Scholar graduated second of 906 at USNA awarded the NASA Space Flight Medal, NASA Distinguished Service Medal, the Gagarin Medal, the Komarov Diploma, the Los Alamos National Laboratory Distinguished Performance Award, and various military awards. So here we have a distinguished gentleman that is a NAVYNASA astronaut, holds two of RUSSIAs highest space awards and has Los Alamos connections. SPACE FLIGHT EXPERIENCE: STS-100 Endeavour (April 19 to May 1, 2001). During the 12-day, 187 orbit mission, the crew successfully delivered and installed the Canadarm-2 robotic arm. They also delivered experiments and supplies aboard the Multi-Purpose Logistics Module Raffaelloon its maiden flight. Phillips was the AscentEntry Flight engineer and was the intravehicular activity coordinator during two space walks. ISS Expedition 11 (April 15 to October 10, 2005). Phillips launched from the Baikonur Cosmodrome in Kazakhstan aboard Soyuz TMA-6, and served as NASA Science Officer and Flight Engineer aboard ISS. During their six-month stay aboard ISS the crew continued station maintenance, worked with scientific experiments, performed a spacewalk in Russian spacesuits from the Pirs Airlock, and hosted the return to flight visit of the Space Shuttle Discovery (STS-114). The ISS-11 crew landed in Kazakhstan on October 10, 2005. In completing his second mission Phillips logged 179 days and 23 minutes in space including an EVA totaling 4 hours and 58 minutes. Read the rest here. its quite an awesome career. John Phillips Bio jsc. nasa. gov. His current job description. a robotics specialist supporting operations on present and future missions. I think I will nick name him Scotty even bears a little resemblance For the OP I will just list these programs with a brief referecnce and later I will expand on them. There are a lot that tie into the NAVY Space Program and this will take a while to put together US NAVAL OBSERVATORY We all know this one and it has been around since December, 1830 The United States Naval Observatory (USNO) is one of the oldest scientific agencies in the United States. Located in Northwest Washington, D. C. it is one of the few astronomical observatories located in an urban area at the time of its construction, it was far from the light pollution generated by the (then-smaller) city center. Established by order of Secretary of the Navy John Branch on 6 December, 1830 as the Depot of Charts and Instruments, the Observatory rose from humble beginnings. Placed under the command of Lieutenant Louis M. Goldsborough, with an annual budget of 330, its primary function was the restoration, repair, and rating of navigational instruments. It was made into a national observatory in 1842 via a federal law and a Congressional appropriation of 25,000. Lieutenant James Melville Gilliss was put in charge of the project, which was completed in 1844. The observatorys primary mission was to care for the United States Navys marine chronometers, charts, and other navigational equipment. It calibrated ships chronometers by timing the transit of stars across the meridian. Initially located downtown in Foggy Bottom (near the Lincoln Memorial), the observatory was moved to its present location in 1893, atop Observatory Hill overlooking Massachusetts Avenue, amidst perfectly circular grounds. Now the USNO has long been pointed to by conspiracy people as being in the thick of it John Lear with the HansenSimon Newcomb Lunar atmosphere deal Z Sitchin using R Harringtons work for Planet X Time manipulation involving the Philadelphia Project and currently issues involving shortening of time and the Schumann Resonance factor Here are some links: United States Naval Observatory (USNO) - Main Official Site usno. navy. mil. United States Naval Observatory (USNO) - Time Portal usno. navy. mil. edit on 15-8-2009 by zorgon Now this one everyone, at least on ATS, should know by now that Clementine was NOT a NASA program. yet all over the forum and on the internet I still see people say it was a NASA gig Well it wasnt it was a Star Wars Military program. The Naval Research Laboratory is not affiliated in any way with any organization selling lunar property or acreage on the moon. NRL has no involvement, either officially or unofficially, in providing after-sales service for the purchase of lunar property from the Lunar Embassy, its franchisees, or any similar organizations. Disputes arising from the purchase of lunar property from such organizations must be resolved with the seller directly. NRL was responsible for the design, manufacture, integration, and mission execution of the Clementine spacecraft for the Ballistic Missile Defense Organization. During its two-month orbit of the Moon in 1994, Clementine captured 1.8 million images of the Moons surface. The Laboratory provides the Clementine Lunar Image Browser as a courtesy to scientific researchers, as well as the general public, and you are welcome to browse the over 170,000 images that are available. Version 1.5 of the Navy Browser. (the one everyone uses for anomaly hunting) cmf. nrl. navy. mil. Notice the URL is NRL. NAVY. MIL No NASA Version 2.0 of the Navy Browser. nrl. navy. mil. Notice the URL is NRL. NAVY. MIL No NASA In actual fact the Clementine data produced color images, covered here. Revealed for the First Time Color Images of the Moon from Clementine Satellite abovetopsecret. The Clementine Satellite - PDF - Official LLNL report and statistics llnl. gov. U. S. Department of Defense Office of the Assistant Secretary of Defense (Public Affairs) News Transcript Tuesday, December 3, 1996 Subject: Discovery of Ice on the Moon Q: Can you update us on. The colonel mentioned that by the time he got to the office in 1989 it was pretty clear the U. S. wasnt going to deploy a space-based missile defense system. Whats happened to the Star Wars program How is your office changing What are you using this technology for today A: Although many of the space platforms that were really envisioned as part of the Strategic Defense Initiative Organization program back in 1989 have not been supported and continued because of the change in emphasis, including the name of the organization to the Ballistic Missile Defense Organization, were now primarily focused on theater missile defense and national missile defense -- defense of the U. S. continent and Alaska and Hawaii with a much reduced threat. And of course we have the demise of the Cold War to thank for that. However, there is still a space-borne component to our theater and national missile defense architecture, and that is the space-based infrared satellite. That will allow us to do tracking, particularly in boost and in the mid-course phases of the trajectory of a ballistic missile. So all the technologies that were demonstrated on Clementine are technologies that we would hope would be either used or would be the grand-daddies of technologies that we would eventually use in our space surveillance platforms. So that part of the space architecture is still very much alive. Q: But the role of the so-called Star Wars system now has shifted to more of a surveillance, as opposed to shooting something down. A: No, it is still based on shooting down ballistic missiles by impact with interceptors. So this technology is important in order to track and pass the track files on to the interceptors in order to allow them to hit their targets. So its very much a part of the architecture. Q: That translates to what in volume A: We were very conservative in the press release, but if you take basically 100 square kilometers by roughly 50 feet, you get a volume of something like a quarter of a cubic mile, I think its on that order. Its a considerable amount, but its not a huge glacier or anything like that. Q: Can you compare that with something you know A: Its a lake. A small lake. On Wherefore Art Though Clementine. The Clementine spacecraft has many mysteries surrounding it, but the name sake. where is Clementine Lost and gone forever Well not quite. Here is our work on Clementine. Wherefore Art Thou Clementine - The Mystery of Clementine Explored thelivingmoon. Q: Where is Clementine now A: The spacecraft, as you know, from the name Clementine, is only supposed to be here for a short period of time and be lost and gone forever, so it was intended for a very short period of time after this lunar mission, did a rendezvous with the earth, and shortly after that was shifted by the moons gravity and continued a flight which will bring it back near the earth about nine years from now. So its an 11 year total flight around the sun. So basically its moving like a little planet around the sun, and it will bring it back close to us in about nine years. Its two years since it left us so it will be another nine years before its back. But its not useful right now. The mission is finished. Q: But unlike its namesake, its not lost and gone forever. It will be back A: It will be back, but its not a useful spacecraft any more. The above quotes are from the Pentagon Press Release issued in 1996 but not online till Oct 2006 DoD News Briefing Presenter: Dr. Dwight Duston, Assistant Deputy for Technology, Ballistic Missile Defense Organization defenselink. mil. edit on 15-8-2009 by zorgon THE TETHER INCIDENT For some time in many threads, mostly those dealing with the infamous STS 75 Tether Incident and NASAs bungling loss of the satellite, I have dropped hints about the OTHER tether satellite flown by the NAVY only a month later. It was used for two years for laser experiments and as far as I know it is still being spotted by amateurs, at least it was a few years ago. It first flew in 1996 and I have an amateur video of it passing over in the summer of 2004 with an Astrovid StellaCam EX by apolloisgo (link later) Now very few people even asked me about it and yet info on it was even available back then in public channels. Its one of my pet peeves, people saying they are searching for truth, but then even when you rub their noses into it, they still dont see it. I got the usual ribbing from certain skeptics, who didnt even bother to do a simple search. Well this satellite was flown and they shot lasers at it from two locations on Earth. One was the Advanced Electro Optical System (AEOS) Mount Haleakala, Maui, Hawaii run by the Air Force and this was the location they took photos of the satellite in orbit. The other location was the Starfire Optical Range in Kirtland AFB in New Mexico thelivingmoon. There is a similar facility in Russia that I knew about and managed to find on Google Earth It is called OKNO ELINT and on that project the Russians said we had THREE. well I found Starfire and AEOS no problem, but the third eluded me though it was already on my list. HELSTAF High Energy Laser Systems Test Facility - White Sands, New Mexico thelivingmoon. This was the Russian Article I used to track it down on GE enews. ferghana. ru. OKNO Sourcebook - 242 page PDF report fas. org. So back to the tether. the purpose of firing the lasers at it was to test the concept of transmitting power to satellites in space via high powered lasers. The new optical systems compensate for atmospheric dispersal. My next thread will deal with that topic in detail. and a little later I will show you one more awesome NAVY project. The NAVY Tether is called TiPS Tether Physics and Survivability experiment. Some public links. Now those sites will give you basic details. Graphic of the US Naval Research Laboratorys TiPS tether satellite. Note that only a small part of the 4 km tether is shown deployed. This is the actual size of tether cable But when I first found this a few years a go the info was on this URL (which now gives you a redirect) Catchy URL to be sure, eh I contacted the NAVY webmaster for permission to reprint the data as it was now declassified and received that permission Here are the links to the data and photos Tether Physics and Survivability Experiment (TiPS) - Naval Research Laboratory thelivingmoon. Processed TiPS Images From MSSSAMOS - Naval Research Laboratory thelivingmoon. Tether Physics and Survivability Experiment (TiPS) - Naval Research Laboratory projects. nrl. navy. mil. - (the hyperspace. nrl. navy. mil. link is still on this page - I didnt make it up ) Video of lasing the Satellite Download TiPS MPEG Video (382 kb) thelivingmoon. Youtube Capture by an amateur in 2004 but just posted to youtube in 2007 edit on 15-8-2009 by zorgon NRL - The High Frequency Active Auroral Research Program nrl. navy. mil. Navys Record-Breaking Railgun Shot Screen capture from the Video. notice the logo on the target shows the rail gun in space. Can someone translate that Latin Navys Record-Breaking Railgun Shot Video Naval Surface Warfare Center, Dahlgren, Virginia nswc. navy. mil. Topic b. Development of new technologies that would allow commercial space-based or conventional aircraft sensors to detect man-made structures hidden beneath heavy (triple canopy) jungle foliage. Consideration will be given to low cost, low footprint concepts that can be prototyped in less than 6 months. Space to NAVELEX Exploration Helps Drive Navy Reorganization Efforts to conquer space began in earnest in the early 1960s when the first U. S. manned spacecraft Freedom 7 was successfully launched and recovered May 5, 1961. Both Astronaut Alan Shepard and the Freedom 7 were flown safely by helicopter to the deck of the USS Lake Champlain within 11 minutes of landing. With that successful recovery, President John F. Kennedy challenged the nation to land men on the moon and return them safely to earth before 1970. Space Program drives Navy to reorganization. In answer to the challenge, NASA launched the Apollo Space Program. It soon became apparent that supporting the space program would be a significant priority for the Navy. Indeed, support of the space program and the launching of its own satellite navigation systems drove a number of organizational changes within the Navy. Along with some existing challenges the Navy had been battling for some time. Naval Space Command (NAVSPACECOM) (U) (U) Headquartered at Dahlgren, Virginia, NAVSPACECOM began operations October 1, 1983. NAVSPACECOM uses the medium of space and its potential to provide essential information and capabilities to ashore and afloat naval forces by: - Operating assigned systems - Executing missions assigned by USCINCSPACE - Advocating naval warfighting requirements in the joint arena and - Advising, supporting, and assisting naval services through training and by developing space plans, programs, budgets, policies, concepts, and doctrine. (U) NAVSPACECOM also serves as the naval service component of the United States Space Command (USSPACECOM), established in 1985. Component responsibilities include operating assigned space systems to provide surveillance and warning, as well as providing spacecraft telemetry and on-orbit engineering support. In addition, NAVSPACECOM provides facilities and staffs a command center 24 hours a day to serve as the Alternate Space Control Center (ASCC) for USSPACECOMs primary center located at Cheyenne Mountain Air Force Base, Colo. ASCC missions include operational direction of the entire global Space Surveillance Network for CINCSPACE. The ASCC also detects, tracks, identifies, and catalogs all man-made objects in space and provides ephemeris on these objects to approximately1,000 customers. It also monitors the space environment and informs owners and operators of U. S. and allied space systems of potential threat to their assets by continuous liaison with the systems operations centers. Finally, NAVSPACECOM provides administrative oversight for two Echelon 3 operational Navy activities: the Naval Satellite Operations Center (NAVSOC) and the Fleet Surveillance Support Command (FLTSURVSUPPCOM). US Naval Space Command Space Surveillance System One of the lesser-known assets of the US Space Commands world-wide space surveillance system is the 217 MHz NAVSPASUR fence across the southern US. The following items from various sources (indicated in italics) give some basic information about the system, its history and use. US Naval Space Command Space Surveillance System fas. org. US NAVY Program Executive Office Space Systems PEO Space Systems Organization Info The PEO Space Systems mission is to develop, acquire, integrate, produce, launch, test and provide operational support to reliable, affordable, flexible, effective and seamless space systems that support DOD and U. S. agencies to enable joint, coalition, combined and naval operations. PEO Space Systems coordinates all Department of the Navy space research, development and acquisition activities. US NAVY Program Executice Office Space Systems enterprise. spawar. navy. mil. Naval Space Command The naval services growing dependence on space prompted the Secretary of the Navy to establish a new command that would consolidate space activities and organizations that operate and maintain naval space systems. This new organization - the Naval Space Command - was commissioned on October 1, 1983. It was a decisive move to bring together several activities under a single command to strengthen operational control, provide a central focal point for naval space matters, and more effectively guide future operational uses of space. No I am not suggesting the Japanese Lunar Orbiter is connected to the NAVY. In the spacecraft Kaguya SELENE stands for SELenological and ENgineering Explorer JAXA SELenological and ENgineering Explorer KAGUYA (SELENE) jaxa. jp. The NAVY SELENE stands for SpacE Laser ENergy Why this odd acronym Good question. maybe it does have something to do with the Japanese Moon Ship after all Information is difficult to find but we have some things to go on. Exuberant1 has been working to track this one down, as well as other info on lasers to transfer power from Earth to satellite, from satellite to ground, and from satellite to satellite. SELENE has the ability to send POWER TO THE MOON. think about the implications of THAT. NAOMISELENE site design Hislop, Arthur Q. Malik, John L. Richter, David J. Bennett, Harold E. Proc. SPIE Vol. 2376, p. 297-314, Laser Power Beaming II, Harold E. Bennett Richard D. Doolittle Eds. The Birchum Mesa SELENE (Space Laser Energy) facility will be dual use facility as it provides for progressive development of high power Free Electron Lasers (FEL) and commercial laser beam power transfer to space-borne vehicles. The facility will be comprised of SELENE mainsite containing two laser system bays and supporting facilities with transport tunnels coupling to the Beam Transfer Optical System (BTOS) which is the active optical array space beam director with its supporting facility. The first generation commercial grade laser will operate at 100 kW of quasi-CW laser power with a planned growth to 10 MW of output power. The BTOS beam director will direct a focus compensated laser power beam to provide power service to space vehicles within a - 50 degree (half angle from zenith) tracking cone service field. An underground hardened site is proposed for this facility to mitigate any potentially hazardous effects from operation of a very high energy CW electron beam laser, to protect the facility from inadvertent weapons splashdown during range Test and Evaluation operations, and to create minimum environmental impact upon historical and ecological elements of the range. Advantages of China Lake for laser power beaming Bennett, Harold E. Proc. SPIE Vol. 2376, p. 280-296 Laser Power Beaming II, Harold E. Bennett Richard D. Doolittle Eds. The site for the proposed National Advanced Optic Mission Initiative (NAOMI) facility will be in the mountains near China Lake, California. This location has 260 clear days per year (more than any other feasible site in the U. S.). In 1993 there were 5 completely overcast days all year. The area near the proposed site is unpopulated. The solar insolation in this general area is the greatest of any area in the United States. The NAOMI system will be installed at an altitude of 5600 feet. Astronomical seeing there is excellent. Even at a less favored site than that planned for NAOMI the average Fried seeing coefficient ro is 12 cm in the visible region and 20 cm values of ro (comparable to the best observatories) are commonly observed. The area is centrally located in and entirely surrounded by one of the largest restricted airspacemilitary operating airspace complexes in the United States, 12 of the entire airspace in California. Electrical power is available from either the nearly Coso Geothermal plant, second largest in the United States, or from the even closer cogeneration plant at Trona, California. Cooling water can be obtained from the nearby area or from the lake itself. Although a dry playa, the lake has a high brackish groundwater level. Most of the commercial satellites over the U. S. could be reached by a lasertelescope system located on government land at the Naval Air Weapons Station (NAWS) military reservation at China Lake. This telescopelaser system will be a prototype for five other systems planned for around the world. The complex will provide laser power beaming to all satellites and put the United States into the position of world leader in satellite technology and power beaming to space. Now the part about beaming power via laser to the Moon Beam Transmission Optical System (BTOS) SELENE The development of the Beam Transmission Optical System (BTOS) is a portion of a larger project entitled SpacE Laser Electric ENErgy (SELENE). The SELENE project utilizes a high energy, free electron laser to transfer energy from the ground to orbiting spacecraft or other space targets such as a lunar base 1 BTOS is the systcm that delivers the beam energy from the laser to the target. The primary mission objective of SELENE is to provide energy for operation of geosynchronous satellites including steady-state power for operations, periodic low power for station keeping, periodic high power during eclipses, and high power for transfer orbit apogee burn. 2 SELENE will also provide energy for operation at middle and high earth orbits (MEO) of 3000 kilometers. Another possible usage for SELENE will be to provide energy to a laser-augmented solar-electric orbit transfer vehicle wherein a low earth orbit (LEO) vehicle transfers to geosynchronous orbit (GEO) through a spiral trajectory path. Finally, SELENE will provide continuous steady-state energy for operation of a lunar base. 3 Structural Design Considerations for the Beam Transmission Optical System Paul D. MacNeal and Michael C. Lou, Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California As I said I will create a new thread on the LASER POWER Transmission as there is a lot to cover. I just wanted to show the tie in with the NAVY SPACE PROGRAM and the BEAMING OF POWER VIA SUPER LASERS TO SPACE CHINA LAKE Naval Air Warfare Center Weapons Division (NAWCWD) navair. navy. mil. Weapons Division PAO: About China Lake - Ridgecrest navair. navy. mil. Thats all for now. I have lots more to add but I needed to get the thread started. All this data and more is collected on my site. There are many links to sites and papers and it is an on going project, especially as more data is released from the NAVY This just to add because its done. and is NAVY Nothing to do with space And just because its a secret Navy Submarine Base Under the Nevada Desert thelivingmoon. NUWC Naval Underwater Warfare Center - Hawthorne Nevada Division Photo Tour at Gate thelivingmoon. Koniec. for now A practical demonstration of a Laser BTOS system being used to supply power to a sub-orbital craft (a remote-controlled plane): Flights of the lightweight, radio-controlled model airplane inside a large building at NASA Marshall are believed to be the first time that a plane has been powered only by laser energy. The demonstration was a key step toward the capability to beam power to an aircraft, allowing it to stay in flight indefinitely -- a concept with potential for the scientific community as well as the remote sensing and telecommunications industries. As Zorgon pointed out, not all lasers systems need be Earth-based - In some cases (such as moon missions), it would be far more practical to have solar-pumped laser in orbit. It appears that Langley and NASA have taken an interest in the matter: - solar-pumped lasers in lunar orbit would beam power to the lunar surface for conversion into either electricity or propulsion needs. For example, lunar rovers could be much more flexible and lighter than rovers using other primary power sources - Also, laser power could be absorbed by lunar soil to create a hard glassy surface for dust-free roadways and launch pads - Laser power transmission is shown to be a highly flexible, enabling primary power source for lunar missions. Using lasers to make roads and launchpads. think about that. Along with power transfer and generation, such lasers could be also used in mineral and water extraction (ie. water from the small lake). There are many advantages in using such a flexible power-transfer system. What might these lunar orbiting solar-pumped lasers look like But what about power transmission from the Earth to orbiting satellites and the moon, surely that would be noticed. Here is what you would see if you lacked the proper equipment, and you looked into the sky towards and active BTOS system: Unaided, you would see Nothing: But if you were properly equipped, you would see beams rising up to meet with various satellites, some going to the moon, some even further - the beams which meet satellites are probably not from an observatory. Properly aided, your eyes would see something like this: (Jose Escamilla believes that these these may be Space Elevators. This and other such images can be seen in his new Movie Moon Rising) More information regarding Laser Power Beaming can be found here: thelivingmoon. edit on 15-8-2009 by Exuberant1 The Japanese are currently working on a Space Based Power System which converts solar energy into microwave and laser pulses. Let us hope the beams dont stray off-target: Japan Shooting For Space-Based Solar Power TOKYO (Nikkei)--The government will by the end of this year start developing technologies designed to eventually beam electricity from solar panels in space down to the earth. An artists image of a compact satellite for use in an experiment to transmit power down to the earth. (Courtesy of JAXA) A public solicitation for firms to participate in the endeavor will soon be made the companies may be selected as early as next month. The government expects players in the electronics and heavy electric machinery industries to participate. The hope is to commercialize orbital solar power by 2030. Such a system would have such advantages as generating electricity regardless of the weather on the ground. The project will develop technologies to transmit power down to the earth. The idea is to convert solar electricity into microwaves, which would then be converted back into electricity at the surface. Coincidentally, it is starting to look as if the Japaneses KaguyaSelene mission was actually a part of the larger BTOS SELENE program. If this is the case, then the name selection of the probe-set was probably not by chance. More to come. The Europeans are getting in on the action, and will be testing their own Space Based Power system and will assess a laser-based SBPS concept for Earth and for the lunar surface. Small scale science missions laser power transmissions will also be considered. ESA funds technology for Earth and Moon base SBSP The European Space Agencys general studies programme is to assess a laser-based SBPS concept for Earth and for the lunar surface. Small scale science missions laser power transmissions will also be considered. The ESA work will include an assessment of the integration of space-based solar power plants into terrestrial ones, including innovative approaches to orbit selection and methods for the adaptation of terrestrial solar power plants to serve in addition as receiving stations for space solar power plants. According to the European agency direct solar pumped laser technologies offer the option of increasing total laser conversion efficiencies by an order of magnitude and innovative beam control and steering technologies, laser to electricity conversion systems and a combination of parallel data, power transmission techniques are of interest. edit on 15-8-2009 by Exuberant1 Another awesome post Zorgon I appreciate all the hard work you and others have done to bring this thread to us. SF Probably not related but. I used to wonder why on some shuttle missions there have been former Navy Seals members. odd to me because I assumed that it was either Air Force pilots, teachers or Dr. s of some kind but now Im thinking these guys were part of the Navy Space Command maybe posted on Aug, 15 2009 10:26 AM Well done zorgon. One of the most thorough posts its been my pleasure to have read, although Im still only half way through all the information youve bombarded me with. Just one question (forgive me if youve mentioned this and I havent yet read it) but where do you think these space craft launch from Even if they launched from one of the sea based sites surely someone would see it Maybe they have and the launches have been recorded as UFO sightings Once again, well done.