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espacio de investigación robótica - WWW.OLOSCIENCE.COM La superficie de Marte, con su dióxido de carbono de la atmósfera y el promedio de -63 ° C de temperatura, no es el lugar ideal para un paseo. Sin embargo, una nueva generación de robots de patas está tomando los primeros pasos hacia una parte activa en más la exploración del espacio. Después de años de investigación, sistemas de patas están demostrando tener una mejor movilidad en terreno difícil que los dispositivos con ruedas. Varios prototipos se están construyendo para optimizar la interacción con extra-terrestre. Biomimética es una rama científica que los intentos de imitar la naturaleza. El resultado es una de ocho patas robot llamado el Escorpión, basada en los patrones de caminar real escorpiones. Se trata de un prototipo que se prueba por el DFKI (Centro alemán de Investigación para la Inteligencia Artificial) en la Universidad de Bremen en Alemania. Se espera que sea capaz de escalar las de Marte-óxido de hierro en las dunas de 1,2 km / h, ya que toma muestras de rocas. El Escorpión está equipado con 60 sensores y 24 motores independientes articulación de las articulaciones, lo que permite al robot para adaptarse a diferentes obstáculos y terrenos. Sus cámaras y sensores de analizar el entorno, mientras que el envío de imágenes de televisión 70 millones de kilómetros a la Tierra. Aramis es un robot que pueda actuar autónomamente. Dos ultra-sonido y sensores de un escáner láser medir la distancia necesaria para determinar si un curso es seguro o no. Este robot puede hacer frente áspera y empinadas y quebradas como los cráteres en Marte y la Luna. Espacio robótica es aplicable en muchos otros campos. Los requisitos para la electrónica y el hardware en la inflexible condiciones de espacio están dando lugar a desarrollos muy avanzados. Todos los materiales utilizados no debe degradar; todas las funciones son a trabajar en ambientes hostiles. Las normas exigidas en la Tierra son entonces fácilmente se reunió y la tecnología de este campo es encontrar muchos usos (por ejemplo, bajo o en las aplicaciones de seguridad). Apoyado por el proyecto europeo Héctor, el DFKI es la adaptación de la tecnología espacial para el uso de búsqueda y equipos de rescate. Los investigadores y los estudiantes del Departamento Mecatronics en el Politecnico di Torino en Italia tienen objetivos similares a los que están en el DFKI. A su juicio, un multi-patas dispositivo con marcos rígidos es el mejor enfoque para transporte de cargas pesadas sobre un terreno áspero. Walkie 6,4 es un semi-robot autónomo que se están desarrollando todavía. Cada una de sus seis pies sentidos el terreno debajo de ella y el robot puede decidir si puede continuar manteniendo la estabilidad. Si la situación se vuelve demasiado peligrosa, el robot se detiene y pide a la alimentación humana órdenes. Es de esperar que 6,4 Walkie un día puede hacer todas sus decisiones por sí solo. Estos robots son vitales para cualquier Marte o la Luna exploración. Para acceder a zonas difíciles (por ejemplo, túneles de lava volcánica, donde la superficie interior es muy irregular) con dispositivos de alta movilidad son esenciales. Los institutos de Bremen y Turín plan para compartir sus conocimientos para acelerar aún más los avances en el diseño. Ellos comparten el sueño de enviar un robot para caminar europeo al espacio dentro de la próxima década. Tags: espacio investigación robótica |
User: oloscience |
La robotique spatiale de recherche - WWW.OLOSCIENCE.COM La surface de Mars, avec ses dioxyde de carbone et atmosphère moyenne -63 ° C la température, n'est pas le lieu idéal pour une promenade. Toutefois, une nouvelle génération de robots à pattes prend les premiers pas vers une part active dans les activités spatiales pour l'exploration. Après des années de recherche, systèmes de pattes se révèlent avoir une meilleure mobilité sur terrain difficile que les dispositifs à roues. Différents prototypes sont en cours de construction afin d'optimiser l'interaction avec les extra-terrestres environnements. Biomimétique est une branche scientifique qui tente d'imiter la nature. Le résultat est un huit-pattes robot appelé le Scorpion, sur la base des modes de marche réelle des scorpions. Il s'agit d'un prototype à l'essai par le DFKI (Centre allemand de recherche sur l'intelligence artificielle) à l'Université de Brême en Allemagne. Il devrait être capable de monter les martien oxyde de fer dunes de 1,2 km / h comme il faut échantillons de roches. Le Scorpion est équipé de 60 capteurs et 24 moteurs indépendants articuler les articulations, ce qui permet au robot de s'adapter à différents obstacles et les terrains. Ses caméras et des capteurs d'analyser l'environnement, tout en envoyant des images de télévision 70 millions de km de la Terre. Aramis est un robot qui peut agir de manière autonome. Deux ultra-sons capteurs et un scanner laser mesure les distances pour déterminer si un cours est sûr ou non. Un tel robot pourrait s'attaquer bruts et gorges escarpées et comme les cratères sur Mars et la Lune. La robotique spatiale est applicable dans beaucoup d'autres domaines. Les exigences pour l'électronique et de matériel dans le sans conditions de l'espace conduisent à l'évolution très avancée. Toutes les matières utilisées ne doit pas dégrader; toutes les fonctions sont de travailler dans des environnements hostiles. Les normes requises sur la Terre sont alors facilement atteints et la technologie de ce domaine est de trouver de multiples usages (par exemple, sous l'eau ou dans des applications de sécurité). Soutenu par le projet européen Hector, le DFKI est en train d'adapter l'espace pour utiliser la technologie de recherche et de sauvetage des équipes. Les chercheurs et les étudiants du Département mécatronique au Politecnico di Torino en Italie ont des objectifs similaires à ceux qui sont au DFKI. Ils estiment un multi-pattes avec dispositif cadres rigides est la meilleure approche pour transporter de lourdes charges sur un terrain accidenté. 6,4 Walkie est un semi-robot autonome encore en cours d'élaboration. Chacun de ses six pieds sens le sol et le robot peut décider si elle peut procéder tout en maintenant la stabilité. Si la situation devient trop dangereux, le robot s'arrête et demande à l'alimentation humaine commandes. Il est à espérer que 6,4 Walkies pourrait un jour prendre toutes ses décisions seul. Ces robots sont vitales pour toute Mars ou l'exploration Lune. Pour accéder à des zones difficiles (par exemple, les tunnels de lave volcanique où l'intérieur de la surface est très irrégulière) des dispositifs à haute mobilité sont essentielles. Les instituts de Brême et Turin plan de partager leurs connaissances pour accélérer les progrès dans la conception. Ils partagent le rêve d'envoyer un robot marcheur européenne dans l'espace au sein de la prochaine décennie. Tags: robotique spatiale recherche |
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RaumfahrtRobotik Forschung - WWW.OLOSCIENCE.COM Die Marsoberfläche, mit seinen Kohlendioxid-Atmosphäre und durchschnittlich -63 ° C Temperatur, ist nicht der ideale Ort für einen Spaziergang. Allerdings ist eine neue Generation von Beinen Roboter greift die ersten Schritte in Richtung auf eine aktive Rolle bei der weiteren Erforschung des Weltraums. Nach Jahren der Forschung, Beinen Systeme erweisen sich eine bessere Mobilität in schwierigem Gelände als Geräte mit Rädern. Verschiedene Prototypen gebaut werden zur Optimierung der Interaktion mit außerirdischen Umgebungen. Bionik ist eine wissenschaftliche Zweig, der versucht, die Natur zu imitieren. Das Ergebnis ist eine von acht Beinen Roboter namens Scorpion, basierend auf dem Fuß Muster der realen Skorpione. Es ist ein Prototyp getestet werden, indem der DFKI (Deutsches Forschungszentrum für Künstliche Intelligenz) der Universität Bremen in Deutschland. Es wird erwartet, dass in der Lage sein, klettern die Mars-Eisen-Oxid Dünen auf 1,2 km / h als es dauert Rock-Proben. Der Skorpion ist mit 60 Sensoren und 24 unabhängigen Motoren Artikulation der Gelenke, so dass der Roboter zur Anpassung an die verschiedenen Hindernisse und Gelände. Seine Kameras und Sensoren analysieren die Umgebung, beim Versenden TV-Bilder 70 Millionen km zur Erde. Aramis ist ein Roboter, der selbstständig handeln können. Zwei ultra-sound-Sensoren und einem Laser-Scanner Maßnahme die erforderliche Entfernung zu ermitteln, ob ein Kurs sicher ist oder nicht. Ein solcher Roboter könnte gegen raue und steile Schluchten und Krater wie auf dem Mars und dem Mond. RaumfahrtRobotik gilt in vielen anderen Bereichen. Die Anforderungen an die Elektronik-und Hardware in die kompromisslose Bedingungen des Raumes führen zu sehr fortgeschrittene Entwicklungen. Alle verwendeten Materialien müssen nicht degradieren, alle Funktionen sind für die Arbeit in feindlichen Umgebungen. Die Anforderungen auf der Erde sind dann leicht erfüllt werden und die Technologie aus diesem Bereich findet viele Verwendungen (z. B. im Unterwasser-oder Sicherheits-Anwendungen). Unterstützt durch das europäische Projekt Hector, der DFKI ist die Anpassung der Raumfahrttechnologie für den Einsatz von Such-und Rettungsmannschaften. Forscher und Studenten der Abteilung Mecatronics am Politecnico di Torino in Italien haben ähnliche Ziele, die in der DFKI. Sie glauben, ein Multi-legged Gerät mit starren Rahmen ist der beste Ansatz zum Tragen schwerer Lasten über eine grobe Gelände. Walkie 6,4 ist eine semi-autonome Roboter noch in der Entwicklung. Jeder der sechs Sinne Füße den Boden unter diesem Wert liegen und der Roboter kann entscheiden, ob sie können unter Wahrung der Stabilität. Wenn sich die Situation zu gefährlich wird, stoppt der Roboter und fordert für den menschlichen Bestellungen. Es ist zu hoffen, dass Walkie 6,4 könnte ein Tag, alle seine Entscheidungen allein. Diese Roboter sind für jede Mond oder Mars Exploration. Für den Zugriff auf schwierigen Bereichen (zum Beispiel, vulkanische Lava Tunnel, wo die Oberfläche ist sehr unregelmäßig)-Geräte mit hoher Mobilität sind unerlässlich. Die Institute in Bremen und Turin Plan zu teilen, ihr Wissen zu beschleunigen, weitere Fortschritte im Bereich des Designs. Sie teilen sich den Traum des Versendens einer europäischen Laufroboter in den Raum innerhalb des nächsten Jahrzehnts. Tags: RaumfahrtRobotik Forschung |
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исследовательской космической робототехники Марсианской поверхности, с ее углекислого газа атмосферы и в среднем -63 ° C температура, не является идеальным местом для прогулок. Тем не менее, новое поколение роботов legged предпринимает первые шаги в направлении активного участия в дальнейших космических исследований. После многих лет исследований, legged систем оказываются лучше мобильности на сложный рельеф, чем устройства с колесами. Различные прототипы, строится для оптимизации взаимодействия с экстра-земных условиях. Biomimetics является научной отрасли, которая пытается имитировать характер. Результат-восемь legged робота называется Скорпион, основанный на ходьба моделей реальных скорпионами. Это прототип проходит проверку на DFKI (немецкий научно-исследовательский центр по искусственному интеллекту) в Университете Бремена в Германии. Ожидается, что он будет способен восхождение Марса-оксид железа дюн на 1,2 км / ч, как он принимает рок-образцам. Скорпион оснащен датчиками 60 и 24 независимых моторов формирования суставов, что позволяет роботу адаптироваться к различным препятствия и местности. Ее камер и датчиков, анализировать окружение, в то время как ТВ-отправка фотографий 70 млн км от Земли. Aramis это робот, который может действовать автономно. Два ультра-звук датчиков и лазерного сканера требуется мера расстояния, чтобы определить курс является безопасным или нет. Такой робот может решить грубый и крутым ущельям и кратеров, подобных тем, на Марсе и Луне. Космической робототехники применима во многих других областях. Требования по электронике и аппаратного обеспечения в условиях бескомпромиссной пространстве ведут к весьма передовых разработок. Все материалы, используемые не должны ухудшать; все функции для работы в неблагоприятных условиях. Стандартов, предусмотренных на Земле, которые затем легко встретились и технологии из этой области является поиск многих видов использования (например, в области подводной безопасности или приложений). При поддержке европейского проекта Гектор, DFKI адаптируется космических технологий для использования в поисково-спасательных групп. Ученые и студенты факультета в Mecatronics Политехнического ди Торино в Италии, имеют аналогичные цели для тех, кто находится DFKI. Они считают, многолетних legged устройство с жесткой рамы является наилучшим подходом для перевозки тяжелых грузов более чем грубый рельеф. 6,4 рации является полуавтономных роботов все еще находится в стадии разработки. Каждая из его шести футов смыслах земли под ним, и робот может решить, будет ли он может перейти при сохранении стабильности. Если ситуация становится слишком опасной, робот останавливается и спрашивает человека заказов. Можно надеяться, что Walkie 6,4 могло бы один день сделать все свои решения в одиночку. Эти роботы имеют жизненно важное значение для любого Марс или Луну разведке. Чтобы войти в сложных областях (например, вулканической лавы туннелях, где поверхность внутри очень нерегулярно) устройств с высокой мобильностью, имеют важнейшее значение. Институтах и в Бремена Турине планируем поделиться своими знаниями в целях ускорения дальнейших достижений в области дизайна. Они разделяют мечту о направлении европейской робота в космос в течение следующего десятилетия. Tags: исследовательской космической робототехники |
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Snake Robot in the water - WWW.OLOSCIENCE.COM "Why can snakes move ahead on without legs?" From this problem, we started research of snake biomechanisms, which resulted in the "Why can snakes move ahead on without legs?" From this problem, we started research of snake biomechanisms, which resulted in the development of "Snake Robots". Snake Robots have many possible applications, even though the structures are simple. Hirose Fukushima Robotics Lab Web site: http://www-robot.mes.titech.ac.jp/home_e.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
User: oloscience |
Snake Robot climbing a chair - WWW.OLOSCIENCE.COM "Why can snakes move ahead on without legs?" From this problem, we started research of snake biomechanisms, which resulted in the development of "Snake Robots". Snake Robots have many possible applications, even though the structures are simple. Hirose Fukushima Robotics Lab Web site: http://www-robot.mes.titech.ac.jp/home_e.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
User: oloscience |
Snake Robot on the ground - WWW.OLOSCIENCE.COM "Why can snakes move ahead on without legs?" From this problem, we started research of snake biomechanisms, which resulted in the development of "Snake Robots". Snake Robots have many possible applications, even though the structures are simple. Hirose Fukushima Robotics Lab Web site: http://www-robot.mes.titech.ac.jp/home_e.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
User: oloscience |
Soccer robots in action! - WWW.OLOSCIENCE.COM ARAI is the family name of the professor and the abbreviation of Advanced Robotics with Artificial Intelligence. The aim of the lab is ARAI and studies on various intelligent systems. The lab is operated with Yokoi Lab and Ota Lab as a group of Intelligent Systems Lab. Arai Yuasa Ohta Lab Web site: http://www.arai.pe.u-tokyo.ac.jp/index.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Lunar/Planetary Exploration Rover - Dune Explorer The Space Robotics Laboratory, led by Professor Yoshida, is dedicated to the research and development of the robotic systems for space science and exploration missions. The lab has contributed to the Engineering Test Satellite-VII (launched in 1997 for orbital robotics experiments) and "Hayabusa" asteroid sample-return probe (launched in 2003 and expected to return in 2010). Today one of our focuses is put on the mechanics and control of lunar exploration rovers. Technologies for remote planetary exploration (such as mapping and localization in the unstructured environment, rough terrain mobility, and teleoperation with time delay) can also be applied to the robots for search and rescue missions. Tohoku University Web site: http://www.astro.mech.tohoku.ac.jp/home-e.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
User: oloscience |
Robotic systems for space science and exploration missions The Space Robotics Laboratory, led by Professor Yoshida, is dedicated to the research and development of the robotic systems for space science and exploration missions. The lab has contributed to the Engineering Test Satellite-VII (launched in 1997 for orbital robotics experiments) and "Hayabusa" asteroid sample-return probe (launched in 2003 and expected to return in 2010). Today one of our focuses is put on the mechanics and control of lunar exploration rovers. Technologies for remote planetary exploration (such as mapping and localization in the unstructured environment, rough terrain mobility, and teleoperation with time delay) can also be applied to the robots for search and rescue missions. Tohoku University Web site: http://www.astro.mech.tohoku.ac.jp/home-e.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
User: oloscience |
Instant Cubism - Meta Perception Movie Interactions in the real world (not only physical but also social and psychological interactions) are inherently parallel phenomena. By constructing models and engineering systems that takes into account such parallelism, one can expect a better understanding of the real world as well as enhanced performance of systems when dealing with practical applications. These fundamental considerations lead us to concentrate on parallel processing for sensory information. Four main related topics are currently being explored in Ishikawa-Komuro Laboratory: Sensor Fusion theory and implementation in engineering systems; Dynamic Image Control Dynamic control of image based on high-speed visual information processing; Massively parallel image processing through a Vision Chip, which is capable of realizing high-speed real-time vision tasks on the basis of VLSI technology, and Meta Perception concerns ways of capturing, manipulating and presenting information which is normally inaccessible to humans and machines. (Past research on Optics in Computing: architectures that combine the advantages of optics and electronics to realize enormous computing throughput). Ishikawa Komuro Laboratory ( web site: http://www.k2.t.u-tokyo.ac.jp/index-e.html ) Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Real-time Shape Measurement of a Moving/Deforming Object Interactions in the real world (not only physical but also social and psychological interactions) are inherently parallel phenomena. By constructing models and engineering systems that takes into account such parallelism, one can expect a better understanding of the real world as well as enhanced performance of systems when dealing with practical applications. These fundamental considerations lead us to concentrate on parallel processing for sensory information. Four main related topics are currently being explored in Ishikawa-Komuro Laboratory: Sensor Fusion theory and implementation in engineering systems; Dynamic Image Control Dynamic control of image based on high-speed visual information processing; Massively parallel image processing through a Vision Chip, which is capable of realizing high-speed real-time vision tasks on the basis of VLSI technology, and Meta Perception concerns ways of capturing, manipulating and presenting information which is normally inaccessible to humans and machines. (Past research on Optics in Computing: architectures that combine the advantages of optics and electronics to realize enormous computing throughput). Ishikawa Komuro Laboratory ( web site: http://www.k2.t.u-tokyo.ac.jp/index-e.html ) Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Guys playing with a robot ...funny! In the intelligent robot laboratory at the University of Tsukuba, the aim of our research is to develop new technologies for the autonomous and automatic machines (robots) that will support our daily life in real environment. Nowadays, thanks to the progress in science and technology, many machines with high power, high speed and high precision are available. These convenient and useful machines are successively developed, and some of them are automatically controlled by computers. However, most of them have good performance only in environments that have been designed for them. By comparison, humans and animals are able to achieve various tasks in much more complicated environments. The objective of our research is to endow autonomous machines with the same capabilities, that is to say, to realize useful and reliable autonomous robot by endowing them with flexibility, adaptability, robustness and reliability in order to fulfill accurately a given task in any environment. Web site: http://www.roboken.esys.tsukuba.ac.jp/english/index.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Dexterous Manipulators and Advanced Control Systems Robotics Research Corporation is a leading supplier of advanced technology robotic manipulators and control products. Our patented mechanism and control technologies remain at the forefront of manipulator systems worldwide. Web Site: http://www.robotics-research.com/ Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Whole Body Grasping - WWW.OLOSCIENCE.COM Dexter is a platform for studying bi-manual dexterity designed to help us study the acquisition of concepts and cognitive representations from interaction with the world. We are addressing central issues in cognitive science and artificial intelligence: the origins of conceptual systems, the role of native structure, computational complexity issues, and knowledge representation. The goal of the research is to advance computational accounts for sensorimotor and cognitive development in a manner that leads to new theories for controlling intelligent robots, and provides a basis for shared meaning between humans and machines. Research is underway toward mechanisms for learning hierarchical control knowledge - categories of objects, activities, tasks, and situations - through a continuous interaction with the environment. Web Site: http://www-robotics.cs.umass.edu/Research/Humanoid/humanoid_index.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Grasping Cylinders: Top Approach - WWW.OLOSCIENCE.COM Dexter is a platform for studying bi-manual dexterity designed to help us study the acquisition of concepts and cognitive representations from interaction with the world. We are addressing central issues in cognitive science and artificial intelligence: the origins of conceptual systems, the role of native structure, computational complexity issues, and knowledge representation. The goal of the research is to advance computational accounts for sensorimotor and cognitive development in a manner that leads to new theories for controlling intelligent robots, and provides a basis for shared meaning between humans and machines. Research is underway toward mechanisms for learning hierarchical control knowledge - categories of objects, activities, tasks, and situations - through a continuous interaction with the environment. Web site: http://www-robotics.cs.umass.edu/Research/Humanoid/humanoid_index.html Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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Walking Robot - WWW.OLOSCIENCE.COM Humanoid Robotics Group (HRG for short) has been investigating fundamental technologies of humanoid robotics including the design, dynamics simulation, motion control and motion planning of humanoid robots. The current topics of HRG are the development of humanoid robot HRP-2, the dynamics simulator for it, motion pattern generator for biped locomotion with the feedback balancer especially for walking on a rough terrain, falling motion planning to minimize the damage when the robot tips over, and motion planning of standing up motion from the floor. HRP also studies the applications of humanoid robots including teleoperations of industrial machines by humanoid robot HRP-1S and construction works in the open air. Web site: http://www.is.aist.go.jp/humanoid/ Tags: robots robotics humanoid android robot technology science physics engineering electronics AI |
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The God Delusion (P.Zahn vs. R.Dawkins) - WWW.OLOSCIENCE.COM [ http://www.oloscience.com ] Clinton Richard Dawkins (born March 26, 1941) is a British ethologist, evolutionary biologist and popular science writer. He holds the Charles Simonyi Chair for the Public Understanding of Science at the University of Oxford. Dawkins first came to prominence with his 1976 book The Selfish Gene, which popularised the gene-centered view of evolution and introduced the term meme, helping found the field of memetics. In 1982, he made a widely cited contribution to the science of evolution with the theory, presented in his book The Extended Phenotype, that phenotypic effects are not limited to an organism's body but can stretch far into the environment, including into the bodies of other organisms. He has since written several best-selling popular books, and has appeared in a number of television and radio programmes concerning evolutionary biology, creationism, intelligent design, and religion. In addition to his biological work, Dawkins is well-known for his views on religion. He is an outspoken antireligionist and atheist; a secular humanist, sceptic, scientific rationalist, and a supporter of the Brights movement. He is a prominent critic of creationism and intelligent design. In his 2006 book The God Delusion, Dawkins contends that a supernatural creator almost certainly does not exist and that religious faith qualifies as a delusion, which he defines as a persistent false belief held in the face of strong contradictory evidence. As of November 2007, the book had sold more than 1.5 million copies in English and had been translated into 31 other languages, making it his most popular to date. Tags: biology evolution genes biological theory religion spirituality God Jesus |
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Edgar Cayce, a Prophetical Thought - WWW.OLOSCIENCE.COM [ http://www.oloscience.com ] Edgar Cayce (March 18, 1877 -- January 3, 1945)was an American some repute as having had psychic abilities. He is claimed to have demonstrated an ability to channel answers to questions on subjects such as health, astrology, reincarnation, and Atlantis while in a self-induced trance. Although Cayce lived before the emergence of the New Age movement, he remains a major influence on its teachings. Cayce became an American celebrity towards the end of his life and the publicity given to his prophecies has overshadowed what to him were usually considered the more important parts of his work such as healing (the vast majority of his readings were given for people who were sick) and theology (Cayce being a lifelong, devout member of the Disciples of Christ). Skeptics challenge that Cayce demonstrated psychic abilities and conventional Christians also question his unorthodox answers on religious matters (such as reincarnation and Akashic records). He may have been the source for the idea that California would fall into the Pacific ocean (though he never said exactly this). Today there are tens of thousands of Cayce students. Most are located in the United States and Canada, but Edgar Cayce Centers are now found in 25 other countries. The Association for Research and Enlightenment (ARE), headquartered in Virginia Beach, is the major organization promoting interest in Cayce. Tags: psychic power mind brain control future prophecy God Jesus |
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Stem Cells Research: Cures & Treatments - WWW.OLOSCIENCE.COM [ http://www.oloscience.com ] ISSCR (International Society for Stem Cell Research)- The International Society for Stem Cell Research is an independent, nonprofit organization established to promote and foster the exchange and dissemination of information and ideas relating to stem cells, to encourage the general field of research involving stem cells and to promote professional and public education in all areas of stem cell research and application. Web Site: http://www.isscr.org Tags: health medicine research biology therapies human body cure treatment stem cell |
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