Add idea


«    January 2019    »










DateDate: 8-01-2019, 08:17

  Personal non-property and property rights for the invention belong to the author and protected under current legislation. 
  This device in its primary purpose serves as a beautiful and aesthetic accessory for vehicles of any type and destination. Smart car wheel-caps "Innovator", with their universal mounts, can be fixed on the car wheels of any type and size. Description the basic smart features will be described below.
  So, the adjustment and control of smart caps will be the eponymous mobile app, as variants of color and of light application will be enough. Themselves smart caps are a flexible led or touch the appropriate form to the panel which may display information in any allowable format. The user who acquires the smart caps "Innovator", sets the corresponding mobile app. In order to access the data management device, the user program registers the set number of smart caps. Further, having access to start management. 
  Led or touch smart hoods will differ only in their cost and functionality, as is different information to be displayed on them. That is, if the led will display only the color and light output, on the touch information of any type and any filling. For now, it is not very comfortable to charge data smart devices, but on this question there are certain specialists. Yet, for the purposes of charging you need to remove smart-caps, and leave them to charge for a certain time, as they will be mounted in a waterproof set of the battery cells. Will also have the opportunity to complete automotive wheel smart caps "Innovator" video cameras and speakers. But how will this happen in practice, moderation platform "Innovator" will describe below. 
  So, the user, when setting on the wheels of his car data, smart devices and connecting them by a method of standard mates, begins to display on the led or sensor plane information. For example, use a gadget with installed the appropriate app to display the desired color and luminous flux under color of his car on the led panel, or displays on the touch panel of the smart cap video material with audio, or do photo or video image and places it there, or just include the audio stream. From the outside, especially at night, will it all look quite colorful and presentable.
  That is, knowing that a large part of the beauty of the car is the appearance of their wheels, when using wheel smart caps "Innovator" aesthetics and beauty will be at the maximum level.    Moreover, the innovativeness of the author's ideas complement the sound effect and photo and video capabilities. 
  This idea is open to investment, and full of redemption.


DateDate: 8-01-2019, 08:11

On atomic clocks that provide high-precision countdown, repeatedly told on the pages of the site And, of course, many readers have repeatedly wondered how the values of the characteristics of these watches were obtained, because in order to measure something with a certain accuracy, a measuring tool with at least an order of magnitude higher accuracy is required. We do not know how other organizations have atomic clocks at their disposal, and the European Space Agency uses to synchronize its clocks the signals of distant rotating neutron stars, pulsars, the signals emitted by which have sufficiently high stability and accuracy.
The project, called PulChron, is a development of scientists from the University of Manchester, the British National Physical Laboratory, and the privately held company GMV. The system created in the course of this project is already partially used to synchronize the atomic clocks, which ensure the operation of the European satellite navigation system "Galileo". Moreover, long-term measurements of pulsar signals, combined with measurements of vibrations of vibrating atoms in hours, make it possible to obtain an even more accurate time reading than is possible with each of the components of the system separately.
Physicist Jocelyn Bell Burnell (Jocelyn Bell Burnell) first discovered the pulsar in 1967, when she noticed a radio signal coming from the depths of space and having a period of 1.34 seconds. Note that this signal was received by the antennas of the Interplanetary Scintillation Array telescope at the Mullard Radio Astronomy Observatory radio observatory. At present, it is already known that pulsars are neutron stars, small and very dense remnants of explosions of massive stars, which sometimes rotate with great speed and emit a directional radiation beam, which periodically goes towards the Earth.
Now pulsars, or rather their signals, are used not only to synchronize the atomic clocks. They also provide tools for searching and measuring gravitational waves, dark matter and studying other phenomena of cosmological scales.
Let us return to the PulChron system. Its equipment receives data from five radio telescopes, including the European Pulsar Timing Array, which monitor 18 pulsars simultaneously. Atomic clocks also generate their own frequency, one period of which is one tick of the clock. But relatively simple atomic clocks based on hydrogen atoms excited by a microwave laser can drift (change their frequency) for long periods of time. And in this case, for the correction, another system with higher stability is required, for example, the Galileo watches require a synchronization and correction procedure every few hours.
Note that the PulChron system is not the first "pulsar" chronometric system, moreover, it still exists in its first, one might say, demo version. But after this system begins to work in its final form, it will be used not only to ensure the operation of the satellite navigation system, but also to count the exact time value of the Greenwich Meridian (Coordinated Universal Time, UTC).