Sixth Sense Technology

ABSTRACT

Sixth Sense Technology is a mini-projector coupled with a camera and a cell phone which acts as the computer and connected to the Cloud, all the information stored on the web. Sixth Sense can also obey hand gestures. The camera recognizes objects around a person instantly, with the micro-projector overlaying the information on any surface, including the object itself or hand. Also can access or manipulate the information using fingers make a call by Extend hand on front of the projector and numbers will appear for to click know the time by Draw a circle on wrist and a watch will appear. take a photo by Just make a square with fingers, highlighting what want to frame, and the system will make the photo which can later organize with the others using own hands over the air.

The device has a huge number of applications, it is portable and easily to carry as can wear it in neck. The drawing application lets user draw on any surface by observing the movement of index finger. Mapping can also be done anywhere with the features of zooming in or zooming out. The camera also helps user to take pictures of the scene is viewing and later can arrange them on any surface. Some of the more practical uses are reading a newspaper reading a newspaper and viewing videos instead of the photos in the paper. Or live sports updates while reading the newspaper. The device can also tell arrival, departure or delay time of air plane on tickets. For book lovers it is nothing less than a blessing. Open any book and find the Amazon ratings of the book. To add to it, pick any page and the device gives additional information on the text, comments and lot more add on feature.

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Co-operative Linux

ABSTRACT

This seminar describes Cooperative Linux, a port of the Linux kernel that allows it to run as an unprivileged lightweight virtual machine in kernel mode, on top of another OS kernel. It allows Linux to run under any operating system that supports loading drivers, such as Windows or Linux, after minimal porting efforts. The paper includes the present and future implementation details, its applications, and its comparison with other Linux virtualization methods. Among the technical details, it also presents the CPU-complete context switch code, hardware interrupt forwarding, the interface between the host OS and Linux, and the management of the VM‘s pseudo physical RAM.

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Emotional Annotation of Text

ABSTRACT

Emotion is at the core of understanding ourselves and others, and the automatic expression and detection of emotion could enhance our experience with technologies. Emotion analysis is a rapidly developing area in computational linguistics. With the advent of affective computing, the task of adequately identifying, representing and processing the emotional connotations of text has acquired importance. This seminar concentrates on how the emotion of the text is annotated. The emotion of a sentence of text should be derived by composition of the emotions of the words in the sentence. Existing approaches to this task rely most often on a simplified representation of the sentence as a bag of words, where all words contribute in equal measure. However, intuitively certain words can probably be considered more significant; depending on the role they play in the word from their syntactic or semantic structure. Of the various existing approaches for representing emotions, some are better suited for some problems and some for others. In this seminar I am focusing on the various problems and the technologies used to implement the same and how the emotional annotation of a text is done by ontological reasoning.

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Heliodisplay

ABSTRACT

The Heliodisplay is a free-space display developed by IO2 Technology. A projector is focused onto a layer of mist in mid-air, resulting in a two-dimensional display that appears to float. This is similar in principle to the cinematic technique of rear projection. As dark areas of the image may appear invisible, the image may be more realistic than on a projection screen, although it is still not volumetric. Looking directly at the display, one would also be looking into the projector’s light source. The necessity of an oblique viewing angle (to avoid looking into the projector’s light source) may be a disadvantage. Heliodisplay can work as a free-space touchscreen when connected to a PC by a USB cable. A PC sees the Heliodisplay as a pointing device, like a mouse. With the supplied software installed, one can use a finger, pen, or another object as cursor control and navigate or interact with simple content. The mist is formed by a series of metal plates, and the original Heliodisplay could run for several hours on one litre of tap water. 2008 model Heliodisplays use 80 mml to 120 ml of water per hour, depending on screen size and user settings, and can be built with any size water tank. The Heliodisplay was invented by Chad Dyner, who built it as a five-inch prototype in his apartment before patenting the free-space display technology, and founding IO2 Technology LLC to further develop the product.

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APPLE – A Novel Approach for Direct Energy Weapon Control

ABSTRACT

Adaptive photonic based phase locked elements (APPLE) is Raytheon’s DARPA development initiative. The initiative is for development of a directed energy weapon that utilizes a beam combining technique for the achievement of high power. It will integrate the laser enabled weapon applications into unmanned aerial vehicles. The APPLE program is to enable all electronic combining of high-power laser engraver beams within an agile, conformal aperture-a practical approach to synthesizing high-power weapon laser engravers from low-power modules for applications such as laser radar, laser target designation, laser communications, and weapons grade lasers. The idea is to provide electro-optical systems with the same mission flexibility and performance that microwave phased arrays provide for RF applications such as radar and electronic warfare systems.

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Fluorescent Multilayer Disc (FMD)

ABSTRACT

Compact discs were a revolutionary product at its time and influenced many spheres of human activity. People started recording music of high quality, which didn’t get worse with the time as it happens to be on tape. As soon as CDs appeared in computer industry they immediately became an undoubted helper both for users and for programmers. The latter were able to increase volume of their program products by adding video and audio elements etc. Later discs were used for digital video (VideoCD).

But technologies are progressing. Data are growing faster and faster. A usual CD is far not enough (640 MBytes). So, there appeared DVD technology. Of course we are happy with those 17 GBytes that can be kept on one DVD disc, but this is a limiting point. So we need a completely new method of storing information on portable data medium. And at last, the company Constellation 3D demonstrates a new format: FMD (Fluorescent Multilayer Disk), which can provide us with a staggering 140 GB of storage space seems to be an enticing solution for the storage-hungry masses.

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Unified Theory of Electrification in Natural Processes

ABSTRACT

Electrification in natural processes is explained by photochemical reactions initiated by electromagnetic (EM) radiation induced in nanoparticles (NPs) by quantum electrodynamics (QED). The NPs ubiquitous to natural processes produce EM radiation depending on the thermal kT of atoms that at ambient temperature is emitted in the far infrared (FIR). However, EM radiation at vacuum ultraviolet (VUV) levels is required to initiate photochemical reactions, and therefore a mechanism is required to increase the frequency from the FIR to VUV levels – the mechanism called QED induced EM radiation. How the NPs form depends on the specific natural process, but all processes are unified by the VUV radiation induced in NPs by QED. For example, static electricity comprising positive and negative charges is produced from VUV induced in NPs that form in the rubbing of dissimilar solids, atmospheric electricity is produced by hydronium and hydroxyl ions from VUV induced in ice NPs as water vapor freezes at high altitudes, and flow electricity is produced by cations and electrons from VUV induced in NPs that form as clusters in turbulence. Prior applications of QED induced EM radiation were based on the EM confinement of FIR radiation in nanovoids (NVs) – bubbles in liquids and gaps in solids. But difficulties with NVs in this regard led to the conclusion that NPs whether liquid or solid are the most likely EM confinement of FIR radiation in natural processes. Compared to NVs, NPs assure EM confinement of FIR radiation to allow frequency up-conversion to VUV levels. Electrification first occurs at the instant the NPs form as the thermal kT energy of the atoms forming the NP is released in a burst of VUV radiation. Steady VUV is then produced as the NP recovers the thermal kT energy lost in the burst from blackbody (BB) radiation in the ambient surroundings. Either way, FIR radiation from the atoms within the NP is suppressed by QED because the FIR frequency is lower than the EM confinement frequency of NPs. To conserve EM energy, QED requires the kT energy loss corresponding to the suppressed IR radiation to be gained at the EM confinement frequency of the NP – typically in the VUV. In this way, the NPs produce the VUV radiation that by photochemical reaction with chemical species to produce charge in natural processes.

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