This video is about QT The New Generation Of Quantum Antennas Quantum Antennas like the QT represent an entirely new paradigm. QT are an Advanced Membrane Transducer. QT/AMTs can be configured as a Multifunction Transducer, capable of simultaneously being a very high quality speaker, microphone, antenna, sensor, imaging device, etc. Quantum Antennas are expected to provide an entirely new “TEL-ENERGY“ infrastrucre. QTs have already demonstrated “Rectenna“ capability for evergreen or wireless recharging and even wireless power transmission. Historically, electricity and telecommunications have existed as two distinct and separate infrastructures. Our value proposition is that Quantum Antenna enabled micro-grids can bridge that gap. Renewable Intelligent Reservoirs offer not only a cash-flowing solution for creating profitable micro-grids, with software sub-metering system enables dynamic platforms and hubs for electrical providers to offer applications and services normally only available and reserved to telecommunications giants. Telecommunications, data and the micro-power grid are evolving into integrated, synergistic systems: Tel-Energy. QT helps to integrated, efficient, low-cost, unified Tel-Energy Infrastructure with ancillary micro-grids. QT Quantum Antennas can provide an entirely dynamic wireless environment including 3D controls, using gesture recognition, voice command, touch and point, virtual keyboard among others. QT provides the infrastructure for cloud-computing, mesh and peer to peer networks which means that the more QT Quantum Antennas that are deployed the more powerful and robust the wireless network becomes. QT does not require traditional cell towers and can connect directly to WiMax, Bluetooth and wireless routers to provide wide ranging wireless hotspot that are usually not subject to multipath interferences. Quantum Antennas are also a powerful component for wireless power transmission. For Electric vehicles the opportunity to have the QTs rectifying RF signals back into electricity for wireless recharging is extraordinary. Applications for QT to directly rectify electricity into electric engines is being explored now. The QT/AMT use with Unmanned Vehicles began nearly 20 years ago. The Porrazzo AMT was featured as a premier NASA 2006 Technology. Quantum Antenna have an entirely different principal of operation than traditional fixed length antennas. QTs overcomes multipath interferences. QTs can operate in elevators, high-rise buildings, cruise-ships, tunnels, parking garages, planes, trains, boats, cars, busses, etc. All places that people want to communicate wirelessly and have access to phone and internet services. The Quantum Antennas like the QT reduces components, decreases costs, reduces maintenance, and increases battery-life. The QT Antennas does not need to be placed in the windshield which means that for manufacturers and consumers the cost is very inexpensive and there is no need for costly replacements. The QT/AMT was awarded the IBEX award in 2008 and the CONNECT Award for The Most Innovative Technology and with Philips won CES Best New Product two years in a row in 2006/7 and 2007/8. QT/AMT has been deployed with all branches of the US Military. It has been saving and changing lives in Haiti after the Earthquake. It is being built into the eco-shell Domes of the MODDHA Village for the ESPWA Orphanage, Haiti. QT Quantum Antennas are a conformal , planar, full spectrum receiving and a transmitting (i.e. transceiving) antenna system. Unlike traditional antennas, which are usually metal wires arranged in a 3 dimensional array or of a fixed length to match the desired frequency, the QT is a size, shape and form independent antenna array made up of layers of thin, flexible polymeric film impregnated with very small electromagnetic transducers which act as Antenna Pixels®, able to operate actively or passively, independently (by pixel) or in concert with one another as an array. QT enables computers, processors and radio devices to dynamically address and manipulate these independently addressable Antenna Pixels in order to produce high-resolution, transmittable high quality radio frequency (RF) signals of different wavelengths.
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