Chrome 30 for Android with gesture control

Google has released a new Beta Version of Chrome for Android introduces new gesture controls and a tool for image search. Chrome 30 is available in beta since two days before for the Android edition, a series of news about the gestural controls. The Internet browser allows you to browse the active tabs by making a horizontal or vertical scanning. The same gesture is used to open the Options menu without lifting your finger from the screen. This beta version supports the accelerometer information so that websites will know the position of the Smartphone. Chrome 30 also introduced a new search tool for images. Holding your finger on an image, it opens a context menu option to access the "Search Google for that picture," which provides information on the plate, the web pages containing the same image and a selection similar image. This function is also available in the desktop version of Chrome 30 Beta.

Vivo launches world's thinnest Smartphone

The Chinese Vivo launches the thinnest Smartphone in the world; the Vivo X3. With a thickness of only 5.75 mm, the device is thinner than 6.18 mm thick Huawei Acend P6, so far the worlds thinnest Smartphone. Despite its small thickness Vivo is still with a nice battery managed to stop with a capacity of 2000 mAh. In addition, the device is equipped with a 5 inch screen HD (720p), a 1.5 GHz quad-core processor (MT6589T), an 8 megapixel camera with LED flash and a 5 megapixel camera on the front. The X3 is equipped with 1GB RAM, 16GB storage and space for two SIM cards. What is missing is a memory card reader. The Vivo X3 runs on Android 4.2 and will be available in China for 2498 Yuan, or just over 300 Euro.

U.S. scientists claim world's most accurate clock

Researchers build the most accurate clock in the world. This atomic clock varies from less than one second in 13.8 billion years, the estimated age of the Universe. American physicists announced Thursday the world's most accurate atomic clock experimental able to vary from less than one second in 13.8 billion years. This clock works with ytterbium atoms, a rare earth element and lasers to a regular beat of ten times higher than the best existing atomic clocks. Compared to a quartz watch, the new clock is ten billion times more accurate. This breakthrough in physics has important potential implications not only for the precision in the measurement of universal time but also GPS and a set of sensors of different forces such as gravity, magnetic field and temperature etc. Andrew Ludlow, a physicist at the National Institute of Standards and Technology (NIST) and one of the main co-authors of this work appeared in the journal Science. "This is an important step in the development of atomic clocks for the next generation currently under development in the world," he says. Like all clocks, atomic clocks keep time measurement based on the duration of a second corresponding to a physical phenomenon that occurs often. While mechanical clocks use the motion of a pendulum to keep time, atomic clocks are based on the ever-constant frequency of light needed to excite an atom of cesium, the current international reference. The last born of atomic clocks based on some 10,000 ytterbium atoms cooled slightly above absolute zero. These atoms are trapped in wells formed optical laser beam. Another laser "bat" 518.000 billion times per second creating a transition between two energy levels in the atoms that provides vibration even greater regularity than a cesium atom and could lead to a new international definition the second time and therefore universal.

Discovered problems in Linux kernel connections to USB devices

Because of a faulty coordination between the hardware and the USB stack in the energy management of the Linux kernel connections to USB devices are frequently interrupted. So far, the kernel developers have looked to blame the device manufacturers. The kernel hacker Sarah Sharp has discovered a serious bug in the Linux kernel. Thus, a faulty coordination between USB stack and equipment when leaving the sleep mode is responsible for the connection to USB devices are abruptly cut off when auto-suspend is enabled. A patch is in the works. The problem of indiscriminate terminations of connections to USB devices is there and other kernel hackers known for years, writes Sharp. However, they have "cheap, crappy and broken" to blame searched devices, so the manufacturers. The blacklists created for this purpose by the kernel developers have become too big someday. The white lists created later by the individual distributions were insufficiently maintained, and ultimately costly. Now, according to Sharp; it is turned out , that the devices were not always responsible for the disruption. According to USB specifications of roothub must send at least 20 milliseconds, the signal to wake up a device (TDRSMDN). Then the status of a device is placed in the hub to Active. Have access to the Linux kernel and software on a device that has yet to be made a break of 10 milliseconds (TRSMRCY). The TRSMRCY value is defined by the USB 2.0 specification, however, neither a read nor a maximum, but a minimum value. Although the xHCI driver of the Linux kernel, the kernel activates immediately hub daemon (khubd), is the changing status of a device, but only after 20 ms free (TDRSMDN). This means that a device can be longer in a Resume mode than that specified in TRSMRCY time. The software then attempts to 10 milliseconds to access the device, although it is still in sleep mode, which in turn can cause the USB device is disconnected or, for example, writes cannot be done. The error relates to devices that connect to the xHCI hub. Such problems with the EHCI hub and the USB stack of the Linux kernel does not exist. After Sharp's first analyzes some USB devices have a TRSMRCY-time of up to 17 milliseconds. 8 percent of the tested devices TRSMRCY-values are about 10 milliseconds. A first patch Sharp has already submitted. But it was still not a "real fix". Immediately they work on a better patch. But you see "light at the end of the tunnel" and that the problems would be resolved with the USB power management in the Linux kernel soon. If everything goes according to plan, the repairs should already be included in the next kernel version 3.11, which should appear early September 2013.

New Nano technology sensors that convert pressure of your fingers into light

Researchers have developed nano-sensors that can convert mechanical pressure (such as pressing a touch screen) into light. This will be used to transmit information faster and with better definition. This new invention is the result of a research team from the Georgia Institute of Technology. Scientists have developed a device to convert the pressure of a finger or a stylus on a touch screen. These lights can then be used to gather information and much greater detail than before. The light produced is immediately captured and analyzed by optical fibers placed in another layer of the device, which then allows to have a resolution of 6300 DPI. Zhong Lin Wang, a professor at Georgia Tech says: "You can write with a stylus and the sensors detect visually what you write in high resolution and with great rapidity. This is a new way of imagining a force that can use different means of detection and can avoid many problems that exist in current pressure sensors. " This technology uses a special faculty of certain objects and materials which also has in the human body, i.e. piezoelectricity. It is the faculty that allows these objects become electrically polarized under the action of mechanical pressure, as the action of a finger on a metal surface. In this case, the piezoelectricity sensor allows components to produce light. Researchers at Georgia Tech expect marketing their new invention by 5-7 years. This could lead to new advances in the field of touch screens, offer new opportunities for users.