RU127562U1 - MOBILE AUTONOMOUS WIRELESS COMMUNICATION COMPLEX - Google Patents

Abstract

1. Mobile autonomous wireless communication system comprising a switching and control device, including indicators, Ethernet network ports and an external power supply port, two wireless data transceivers, one of which is connected to antennas, an autonomous power supply system, characterized in that one wireless transceiver the data is made in the form of a Wi-Fi data wireless transceiver module, another wireless data transceiver is made in the form of an external high-speed module of the wireless communication channel, the autonomous power supply system includes an electric power generation module and a battery for storing electric energy, while the Wi-Fi wireless data transceiver module and the external high-speed wireless communication channel module are connected to the switching and control device via Ethernet network ports. 2. The complex according to claim 1, characterized in that the generation module is made in the form of a solar module, or a wind generator, or in the form of a solar module and a wind generator. The complex according to claim 1, characterized in that the module of the external high-speed wireless communication channel can be made in the form of an atmospheric optical communication line module or in the form of an E-band microwave relay module. The complex according to claim 1, characterized in that the autonomous power supply system has outputs for connecting external devices.

Description

The utility model relates to the field of communications and telecommunications, in particular to mobile communication systems and can be used to quickly provide Internet connection, telephone cellular communications and data transmission of remote territories, inaccessible terrain and areas of natural disasters, industrial disasters and incidents, public events, construction sites, communications, routes and railway lines, as well as for the reservation of cable trunk and fiber-optic communication lines in case of Rhee and emergencies.

Currently, various communication systems are used, with the help of which subscribers can exchange information among themselves separately in each of the communication networks. However, the simultaneous combination of the high data rate of the external channel and subscriber communication channels with the absence of the need to allocate radio frequencies and other approvals with the State Committee for Radio Frequencies, high mobility, short deployment time and the ability to install additional radio equipment, such as 3G / GSM femtocell, WiMAX station, there is no radio beacon or video surveillance system in known communication complexes. Therefore, the creation of a mobile wireless communication complex with the above characteristics is an urgent task.

Known mobile communication system, protected by a patent of the Russian Federation for utility model No. 98297, class. H01Q 1/27, publ. 10/10/2010

The mobile communication complex contains a frame fixed to the chassis, at the base of which a mast is made, made in the form of a scissor lift, a drive for extensions, extensions and a diesel generator. The hardware module and retractable outriggers are fixed on the frame. An antenna post is fixed on the upper platform of the mast, and the drives of the extensions are located on the frame, and the extensions from each of them through the corresponding tension sensor and the bypass unit are fixed in the upper part of the retractable outrigger and connected to the upper platform of the mast.

A disadvantage of the known communication complex is its limited mobility and battery life, lack of compactness and limited scope due to the type of radio equipment used.

Known mobile node mobile communications, protected by RF patent No. 2359410, class. H04B 7/185 publ. 06/20/2009 Two technological automated workstations, a satellite modem, a switch for lines and group paths, an Ethernet card, a server, a distribution and switching unit for users of a local area network (LAN), and a telephone, were introduced into a mobile mobile node containing a satellite communications station; an apparatus for the Internet Phone system, two operator workstations, two telephone sets for telephone confidential communications, a digital mini-telephone exchange of the DECT system, a remote base station for mobile radio communication of the DECT system with an antenna, subscriber lines telephone and confidential communication and LAN lines.

The disadvantage of a mobile mobile node is limited mobility and battery life.

Closest to the claimed technical essence and the achieved result, selected as a prototype, is a mobile communication terminal, protected by the RF patent for utility model No. 66872, cl. H04B 1/38, H04M 11/00, publ. 09/27/2007

The mobile communication terminal contains a control and management device and an external power supply port connected to it, external control elements and indicators, a SIM card reader, a GSM / GPRS modem, an RS-232 serial port, a USB output input port, a flash memory card reader MMC / SD, Ethernet network port, at least two Bluetooth wireless transceivers connected by antennas, Bluetooth wireless transceiver devices connected to external antennas or antennas built into them. The mobile terminal also contains an autonomous power supply battery, a WiFi wireless data transceiver, and a GPS receiver of a global positioning system.

A disadvantage of the known communication terminal is the low data rate and limited battery life.

The technical result achieved by the proposed mobile autonomous wireless communication system is to increase the data transfer rate and achieve energy autonomy of work.

The indicated technical result is achieved in that in a mobile autonomous wireless communication complex comprising a switching and control device including indicators, Ethernet network ports and an external power supply port, two wireless data transceiver devices, one of which is connected to antennas, an autonomous power supply system, one device wireless data transceiver is made in the form of a Wi-Fi data transceiver module, another wireless data transceiver device is made in the form e module of the external high-speed wireless communication channel, the autonomous power supply system includes a power generation module and a battery for storing electric power, while the Wi-Fi wireless data transceiver module and the external high-speed wireless communication module are connected to the switching and control device via Ethernet network ports.

The generation module is made in the form of a solar module, or a wind generator, or in the form of a solar module and a wind generator.

The external high-speed wireless communication channel module can be made in the form of an atmospheric optical communication line module or in the form of an E-band microwave relay module.

The autonomous power supply system has outputs for connecting external devices.

Figure 1 presents a view of a deployed mobile autonomous wireless communication complex, figure 2 is a view of a deployed mobile autonomous wireless communication complex in a portable version; figure 3 is a block diagram of a mobile autonomous wireless communication complex.

The mobile autonomous wireless communication complex includes a switching and control device 1, including indicators 2, Ethernet network ports 3 and an external power supply port (not shown in FIG.). The Wi-Fi data transceiver module 4 is connected to the antennas 5 and to the switching and control device 1 through the Ethernet network port 3. The device 1 switching and control via a network port 3 Ethernet is also connected to the module 6 of the external high-speed wireless communication channel. The autonomous power supply system 7, including the electric power generation module 8 and the battery 9 for storing electric power, is connected to the Wi-Fi data transceiver module 4, the switching and control device 1, and the external high-speed wireless communication channel module 6. System 7 autonomous power supply has outputs 10 for connecting external devices.

Mobile autonomous wireless communications system operates as follows.

Module 6 of the external high-speed wireless communication channel of the communication complex during the installation of the complex is sent to a remote node with a pre-configured response module. Thus, an external data channel is organized. From the autonomous power supply system 7, power is supplied to the external high-speed wireless communication channel module 6, the switching and control device 1 and the Wi-Fi data transceiver module 4. Wi-Fi data transceiver module 4 through antennas 5 establishes communication with subscriber devices within the range of module 4. Switching and control device 1 assigns IP addresses to subscriber devices and provides them with access to the list of communication services allowed for these subscribers. Module 6 of the external high-speed wireless communication channel provides an external data transceiver channel for subscribers who, according to the settings of the switching and control device 1, are allowed access to the external network through a remote node, and also provides the ability to remotely control the communication complex from any point on the external network. Thus, the device 1 switching and control carries out the switching of subscribers of the Wi-Fi network with an external communication channel, with the ability to adjust the data transfer speed and priority of the transmitted data, and thereby organizing access to communication services.

The power supply of the complex is carried out from an autonomous power supply system 7, including an electric power generation module 8 and a battery 9 for storing electric energy.

The generation module generates electricity for the operation of the complex and can be made in the form of a solar module or a wind generator, or in the form of a solar module and a wind generator, depending on the operating conditions of the complex.

The outputs 10 of the system 7 of autonomous power supply are used to connect external devices such as cell phones, tablets, camcorders, flashlights, etc.

Mobile autonomous wireless communication complex can be performed in a stationary version or portable.

The device 1 switching and control can be made in the form of an Ethernet router, for example, D-Link DSR 250.

The switching and control device 1 and the Wi-Fi data transceiver module 4 can be implemented either as separate devices or as a combined data processing device, which is an Ethernet router with a built-in Wi-Fi transceiver, for example, D-Link DIR- 651

Module 6 of the external high-speed wireless communication channel can be made in the form of a module of an atmospheric optical communication line, for example, brand M1-GE from ARTOLINK, or an E-band radio relay transceiver (71-76, 81-86 GHz) of brand РРС-1000 from DOK.

The advantages of the proposed mobile autonomous wireless communication complex are an increase in the data transfer rate up to 1 Gigabit / s of the external channel and up to 300 Megabit / s of the subscriber channel and achieving energy autonomy of work through the use of the power generation system.

In addition, the proposed communication complex does not require the allocation of radio frequencies and other coordination with the SCRF, it has the ability to install additional radio equipment, such as a 3G / GSM femtocell, WiMAX station, a radio beacon, and the ability to install other additional equipment, for example, video surveillance, such as IP camcorders and sensors, etc.

Claims (4)

1. Mobile autonomous wireless communication system comprising a switching and control device, including indicators, Ethernet network ports and an external power supply port, two wireless data transceivers, one of which is connected to antennas, an autonomous power supply system, characterized in that one wireless transceiver the data is made in the form of a Wi-Fi data wireless transceiver module, another wireless data transceiver is made in the form of an external high-speed module Of the wireless communication channel, the autonomous power supply system includes a power generation module and a battery for storing electricity, while the Wi-Fi wireless data transceiver module and the external high-speed wireless communication channel module are connected to the switching and control device via Ethernet network ports. 2. The complex according to claim 1, characterized in that the generation module is made in the form of a solar module, or a wind generator, or in the form of a solar module and a wind generator. 3. The complex according to claim 1, characterized in that the module of the external high-speed wireless communication channel can be made in the form of an atmospheric optical line module or in the form of an E-band microwave relay module. 4. The complex according to claim 1, characterized in that the autonomous power supply system has outputs for connecting external devices.

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