RU2648568C2 - Method of wireless computer network establishment - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: invention relates to computer equipment and can be used to establish and organize the wireless computer network operation. Result is achieved due to the fact that each of the computer network node contains a computer with a connected video camera and with a connected vibration generator, wherein as a transmitting device a vibration generator connected to a source computer is used, and as the receiving device a video camera connected to a receiving computer is used.

EFFECT: technical result is that in each wireless communication channel of this wireless computer network, visible light is used for data transmission and at this no modulation is used that uses the variation of the radiation parameters produced by artificial light sources.

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Description

FIELD OF THE INVENTION

The invention relates to computer technology and can be used to create and organize the operation of a wireless computer network.

State of the art

The prior art standard for wireless computer networks using visible light for data transmission: IEEE 802.15.7-2011 - IEEE Standard for Local and Metropolitan Area Networks - Part 15.7: Short-Range Wireless Optical Communication Using Visible Light (see: URL : http://standards.ieee.org/about/get/802/802.15.html (accessed: 06/03/2016). This standard describes the use of visible light transmission technology (also known as VLC technology (Visible Light Communication)) for wireless personal area networks (WPANs). At the same time, data transmission using VLC technology is carried out by modulation using changes in the parameters of the radiation produced by artificial sources of visible light.

For example, in patent document US 2013/0208184 A1 "Inter-device communications using visible light" (publ. 08/15/2013) describe a method of exchanging data between devices using VLC technology. Moreover, in the communication channel described in patent document US 2013/0208184 A1, a display device connected to a source computer is used as a transmitting device, and a video camera connected to a recipient computer of an electronic message is used as a receiving device.

In the article "SINR-constrained joint scheduling and optimal resource allocation in VLC based WPAN system", Ratan Kumar Mondal, Nirzhar Saha, Nam-Tuan Le, Yeong Min Jang, - Wireless Personal Communications, Volume 78, Issue 4, pp. 1935-1951. Publisher: Springer US. October 2014. DOI: 10.1007 / s11277-014-2054-y (see: URL: http://link.springer.com/article/10.1007%2Fs11277-014-2054-u (accessed: 06/03/2016)) describe a wireless personal network based on the use of VLC technology.

In Survey on optical camera communications: challenges and opportunities, Nirzhar Saha, Md Shareef Ifthekhar, Nam Tuan Le, Yeong Min Jang, - IET Optoelectronics, Volume 9, Issue 5, pp. 172-183. Publisher: IET. October 2015. DOI: 10.1049 / iet-opt.2014.0151 (see: URL: http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=7284721 (accessed 06/03/2016)) describe the technology OSS (Optical Camera Communications), which is based on VLC technology and using which, when transmitting data, a video camera is used as a receiving device.

VLC technology has the disadvantage that when transmitting data outdoors, in bright sunlight, signal quality deteriorates. To eliminate this drawback, special equipment is used, for example optical filters (see: "Experimental outdoor visible light data communication system using differential decision threshold with optical and color filters", Yong-Hyeon Kim, Yeon-Ho Chung, - Optical Engineering, Volume 54 , Issue 4, 040501 (Apr. 09, 2015). DOI: 10.1117 / 1.OE.54.4.040501, URL: http: //opticalengineering.spiedigitallibrary.org/article.aspx? Articleid = 2272702 (accessed: 03.06. 2016)).

In accordance with the definition of the communication channel (see: "Theory of electrical communication: Textbook for universities". / Zyuko A.G., Klovsky D.D. et al. - M.: Radio and Communications, 1999. - 432 p., ISBN 5-256-01288-6) the communication channel contains:

1) the physical environment through which signals are transmitted from the message source to the message recipient;

2) a transmitting device that converts the message into a signal;

3) a receiving device that converts the signal into a message.

Moreover, when organizing the communication channel, the modulation method used in this communication channel when transmitting a message over the communication channel is important.

The work of a computer network is organized by organizing the operation of communication channels and nodes of this computer network. The operation of a computer network node is carried out by using the equipment of a computer network node (also called NNE (Network Node Equipment), see: "Metro network utilizing 10-Gb / s directly modulated lasers and negative dispersion fiber", Ioannis Tomkos, Robert Hesse , Rich Vodhanel, Aleksandra Boskovic, - IEEE Phontonics technology letters, Volume 14, Issue 3, pp. 408-410 Publisher: IEEE. March 2002. DOI: 10.1109 / 68.986829, URL: http: //ieeexplore.ieee.org/ xpl / articleDetails.jsp? reload = true & arnumber = 986829 (accessed: 06/03/2016).

The equipment of a computer network node (NNE) contains the following devices:

1) a transmitting device through which an electronic message is transmitted from a computer;

2) a receiving device through which an electronic message is received on a computer.

In the document: GOST ISO 5347-0-95. Vibration. Calibration methods for vibration and shock sensors. - Enter. 1997-07-01. - M .: Standards Publishing House, 1996. - 28 pp., A standard is described that sets the definition of a vibration generator as follows: "A vibration generator is any device for creating and transmitting controlled movement of the sensor’s landing surface." In this case, controlled movements are created through the operation of a vibration generator. In this case, the characteristics of the controlled movements are determined by the parameters of the vibration generator operating modes, for example, the duration of the vibration generator, the frequency of the vibrational movement generated and transmitted by the vibration generator through its contact surface.

The prior art knows a large number of samples of vibration generators. For example, in patent document US 2006/0082231 A1 "Vibration generator and electronic apparatus", Assignee: Sony Corporation (publ. 04/20/2006), describes a vibration generator used in an electronic device, in particular, for example, in a mobile phone. The operation of this vibration generator is controlled by transmitting signals representing operation mode parameters of this vibration generator from an electronic device to this vibration generator.

US Pat. No. 7,023,326 B2, “Vibration apparatus for a mobile telecommunication terminal and method for controlling the same,” Assignee: Samsung Electronics Co., Ltd. (publ. 04.04.2006), a vibration generator is described by which controlled mechanical movements are created and transmitted through the contact surface of this vibration generator. This vibration generator is installed in a mobile communication device with the ability to create and transmit oscillating mechanical movements with a controlled frequency and with a given duration of operation of this vibration generator through the contact surface of this vibration generator. In this case, the operation of this vibration generator is controlled by transmitting signals representing the parameters of the modes of operation of the vibration generator to this vibration generator.

In US 2006/0066164 A1, “Multi-mode vibration generator for communication terminal,” Assignee: Samsung Electro-Mechanics Co., Ltd. (published on March 30, 2006), a vibration generator is described by which controlled mechanical movements are created and transmitted through the contact surface of this vibration generator in accordance with various modes of its operation. At the same time, controlled mechanical movements with various parameters are created and transmitted.

The prior art discloses a method for restoring sound signal parameters using special programs by recording a vibration of an object that is not a vibration generator that is affected by sound signals (see: "The Visual Microphone: Passive Recovery of Sound from Video", Abe Davis , Michael Rubinstein, Neal Wadhwa, Gautham J. Mysore, Fredo Durand, William T. Freeman, - ACM Transactions on Graphics (Proceedings of ACM SIGGRAPH 2014), Volume 33, Issue 4, Article No. 79, July 2014. DOI: 10.1145 /2601097.2601119. URL: http://dl.acm.org/citation.cfm?id=2601119 (accessed: 06/03/2016). The above source of information describes, for example, restoring the parameters of an audio signal containing speech by recording video of the vibration of the leaves of the plant, which are affected by sound signals containing speech. At the same time, the above-mentioned document does not describe a communication channel in which electronic messages are transmitted by video recording of the contact surface of a vibration generator used as a transmitting device and connected to a source computer, and in which a video camera connected to a computer is used as a receiving device the recipient of the email.

The prior art does not know a method of organizing a wireless computer network, in each wireless communication channel of which the electronic message is transmitted by video recording of the contact surface of the vibration generator when it is used, used as a transmitting device and connected to a source computer, and use as a receiving device a camcorder connected to the recipient computer of the electronic message.

Disclosure of invention

The invention is a new way to organize a wireless computer network. Each node of this computer network contains a computer with a connected video camera and a connected vibration generator. In this case, the vibration generator connected to one node of this computer network is placed with the possibility of obtaining images of the contact surface of this vibration generator by a video camera connected to another node of this computer network. Each vibration generator is endowed with the ability to create and transmit controlled mechanical movements of its contact surface through the implementation of its work in accordance with the set parameters of its operating modes. Each computer is given the opportunity to control the operation of the vibration generator connected to it by transmitting the parameters of the operating modes to this vibration generator. Each video camera connected to a computer is configured, using special programs, to receive images of the contact surface of the vibration generator connected to another computer, and to transfer images of the contact surface of the vibration generator to a computer connected to this camera during the operation of this vibration generator. Each computer, using special programs, is configured to receive images transmitted by a video camera connected to it and to restore the parameters of mechanical movements of the contact surface of the vibration generator connected to another computer from the received images of the contact surface of this vibration generator when the vibration generator is operating.

Electronic messages are transmitted from one node to another node of this computer network via wireless communication channels designed to transmit electronic messages from source computers to recipient computers.

Each wireless communication channel of this computer network is organized so that a vibration generator is connected to the source computer, which is configured to receive parameters of its operation modes from the source computer and the vibration generator operates in accordance with the obtained parameters of its operation modes, and connected to the recipient computer video camera, while the video camera is configured to receive images of the contact surface of the vibration generator connected to the source computer, and to transmit images to the contact surface of this vibration generator to the recipient computer connected to this camcorder.

First, the transmitted electronic message is encoded, using special programs, in the form of a finite sequence of characters using a code that satisfies the condition of unique decoding. The resulting sequence of characters is encoded, using special programs, in the form of a finite sequence of parameters of the modes of operation of the vibration generator using a code that satisfies the unambiguous decoding condition. Then, the final sequence of parameters of the vibration generator operation modes is transmitted to the vibration generator connected to the source computer. Then, controlled mechanical movements of the contact surface of the vibration generator are created and transmitted by means of its operation in accordance with the transmitted finite sequence of parameters of its operation modes.

To receive the transmitted electronic message, a video camera is connected to the recipient computer, which is designed to receive images of the contact surface of the vibration generator connected to the source computer. Then, the video camera connected to the recipient computer is configured to receive images of the contact surface of the vibration generator connected to the source computer, and to transmit images of the contact surface of this vibration generator to the recipient computer connected to this camera. Then, the recipient computer, using special programs, is transferred to the mode of receiving images transmitted by the video camera connected to this recipient computer. Then, on the video camera, images of the contact surface of the vibration generator connected to the source computer are obtained during the operation of this vibration generator in accordance with the final sequence of parameters of the vibration generator operating modes representing the transmitted electronic message. On the recipient computer, using special programs, images of the contact surface of the vibration generator connected to the source computer are obtained by the video camera during the operation of this vibration generator in accordance with a finite sequence of parameters of the vibration generator operating modes representing the transmitted electronic message. Then, on the recipient computer, using special programs, the parameters of the mechanical movements of the contact surface of the vibration generator connected to the source computer, created by the operation of this vibration generator, are restored from the images obtained. From the restored parameters of the mechanical movements of the contact surface of the vibration generator connected to the source computer, created by the operation of this vibration generator using special programs, the final sequence of parameters of the vibration generator operation modes is obtained on the recipient computer. The resulting final sequence of parameters of the vibration generator operation modes is decoded and a final sequence of symbols is obtained. Then the resulting final sequence of characters is decoded. As a result of this decoding, the transmitted electronic message is received.

Moreover, an essential condition for organizing this wireless computer network is that each node of this wireless computer network is empowered to receive electronic messages from another node of this wireless computer network through a video camera connected to it and to transmit electronic messages to another node of this wireless via a vibration generator connected to it a computer network via the wireless communication channels of this computer network.

The technical result to which the claimed invention is directed is that each wireless communication channel of this wireless computer network uses visible light to transmit data and does not use modulation using changes in the radiation parameters produced by artificial sources of visible light. This technical result is ensured by the fact that as a transmitting device in each wireless communication channel of this wireless computer network, designed to transmit electronic messages from the source computer to the recipient computer, use a vibration generator connected to the source computer, and as a receiving device use a camcorder connected to the recipient computer.

The implementation of the invention

The invention is a new way to organize a wireless computer network. Each node of this computer network contains a computer with a connected video camera and a connected vibration generator. In this case, the vibration generator connected to one node of this computer network is placed with the possibility of obtaining images of the contact surface of this vibration generator by a video camera connected to another node of this computer network. Moreover, each vibration generator is preferably rigidly attached to the surface on which it is placed. As an example of a vibration generator, a vibration generator is used, capable of creating and transmitting oscillatory mechanical movements through its contact surface with a controlled frequency. As an example of a video camera, a video camera is used, which allows you to receive video at a frequency of 30 frames per second, with a resolution of 1080 × 1920. Each vibration generator is endowed with the ability to create and transmit controlled mechanical movements of its contact surface through the implementation of its work in accordance with the set parameters of its operating modes. Each computer is given the opportunity to control the operation of the vibration generator connected to it by transmitting the parameters of the operating modes to this vibration generator. Each video camera connected to the computer is configured, using special programs, to receive images of the contact surface of the vibration generator connected to another computer, and to transfer images of the contact surface of the vibration generator to the computer connected to this video camera. Each computer, using special programs, is configured to receive images transmitted by a video camera connected to it and to restore the parameters of mechanical movements of the contact surface of a vibration generator connected to another computer from the received images of the contact surface of this vibration generator.

Electronic messages are transmitted from one node to another node of this computer network via wireless communication channels designed to transmit electronic messages from source computers to recipient computers.

Each wireless communication channel of this computer network is organized so that a vibration generator is connected to the source computer, which is configured to receive parameters of its operation modes from the source computer and the vibration generator operates in accordance with the obtained parameters of its operation modes, and connected to the recipient computer video camera, while the video camera is configured to receive images of the contact surface of the vibration generator connected to the source computer, and to transmit images to the contact surface of this vibration generator to the recipient computer connected to this camcorder.

Then organize the transmission of electronic messages over a wireless communication channel from the source computer to the recipient computer. For this, the transmitted electronic message is first encoded as a finite sequence of characters using a code satisfying the unique decoding condition. As an example of such encoding, the encoding of an electronic message is used in the form of a finite sequence of characters consisting of zeros and ones by writing it as a binary file using special programs on an information storage device connected to the source computer. Then, the obtained sequence of symbols is encoded in the form of a finite sequence of parameters of the modes of operation of the vibration generator using a code satisfying the unambiguous decoding condition. As an example of such coding, an ordered pair of numbers (7, 5) is assigned to each number 0, by means of which the parameters of the vibration generator operation mode are set and in which the first number 7 sets the frequency of the oscillatory motion created and transmitted by the vibration generator of its contact surface equal to 7 Hz , and the second number 5 sets equal to 5 seconds the duration of the vibration generator, corresponding to the first parameter of this mode of operation of the vibration generator; each number 1 is assigned an ordered pair of numbers (12, 5), by means of which the parameters of the vibration generator operation mode are set and in which the first number 12 sets the frequency of the oscillatory motion created and transmitted by the vibration generator of its contact surface equal to 12 Hz and the second number 5 set equal to 5 seconds the duration of the vibration generator, corresponding to the first parameter of this mode of operation of the vibration generator. Then, from the source computer, the resulting sequence of parameters of the vibration generator operating modes is transmitted to the vibration generator. Then, controlled mechanical movements of the contact surface of the vibration generator are created and transmitted through the operation of the vibration generator in accordance with this final sequence of parameters of its operation modes.

To receive the transmitted electronic message, a video camera is connected to the recipient computer, which is designed to receive images of the contact surface of the vibration generator connected to the source computer. Then, the video camera connected to the recipient computer is configured, using special programs, to receive images of the contact surface of the vibration generator connected to the source computer and to transfer images of the contact surface of this vibration generator to the recipient computer connected to this camera. Then, the recipient computer, using special programs, is transferred to the mode of receiving images transmitted by the video camera connected to this recipient computer. Then, on the video camera, images of the contact surface of the vibration generator connected to the source computer are obtained during the operation of this vibration generator in accordance with the final sequence of parameters of the vibration generator operating modes representing the transmitted electronic message. On the recipient computer, using special programs, images of the contact surface of the vibration generator connected to the source computer obtained by the camera during the operation of this vibration generator in accordance with a finite sequence of vibration generator operating mode parameters representing the transmitted electronic message are obtained. Then, on the recipient computer, using special programs, the parameters of the mechanical movements obtained by the contact surface of the vibration generator are restored when the vibration generator is connected to the source computer. As an example of the results of restoring the parameters of the mechanical movements of the contact surface of the vibration generator, a vibration program is used. From the restored parameters of the mechanical movements obtained by the contact surface of the vibration generator during the operation of this vibration generator connected to the source computer, using special programs, the final sequence of parameters of the vibration generator operation modes is restored. The restored final sequence of parameters of the vibration generator operation modes is decoded and a final sequence of symbols is obtained. Then the resulting final sequence of characters is decoded. As a result of this decoding, the transmitted electronic message is received.

Moreover, an essential condition for organizing this wireless computer network is that each node of this wireless computer network is empowered to receive electronic messages from another node of this wireless computer network through a video camera connected to it and to transmit electronic messages to another node of this wireless via a vibration generator connected to it a computer network via the wireless communication channels of this computer network.

Claims (1)

The method of organizing a wireless computer network, which consists in the fact that the transmission of electronic messages from one node to another node of this computer network is carried out via a wireless communication channel, which is organized by connecting to a source computer a vibration generator, creating and transmitting controlled mechanical movements of the contact surface of the vibration generator through the operation of the vibration generator in accordance with the final sequence received from the source computer, the parameter in the operating modes of the vibration generator, which is an electronic message transmitted from the source computer, and by connecting to the recipient computer a video camera through which images of the contact surface of the vibration generator are obtained when the vibration generator is operating, while the parameters of the mechanical movements of the contact surface are restored on the recipient computer the vibration generator according to the obtained images of the contact surface of the vibration generator when the gene the vibration generator and restore the electronic message according to the restored parameters of the mechanical movements of the contact surface of the vibration generator, while each node of this computer network is empowered to receive electronic messages from the other node of this computer network through the video camera connected to it and transmit electronic messages to the other through the vibration generator node of this computer network via wireless communication channels of this computer network.