RU2231930C2 - Method for data transfer in hybrid network and hybrid network router - Google Patents

Abstract

FIELD: data transfer networks.

SUBSTANCE: method includes data burst transfer by one of network transceivers, reception of initial burst fragment by router and its storage in buffer memory, and transmission of stored fragment to network addressee by means of router. Next burst fragment is received and stored concurrently with transmission. Concurrent burst transmission and reception cycle is repeated up to last burst whereupon router transfers last stored fragment.

EFFECT: reduced transmit/receive cycle time, enhanced speed of data exchange.

8 cl, 6 dwg

Description

The claimed invention relates to networks consisting of wired and wireless transceivers, combined via wired lines into a single hybrid network, as well as to methods used in this network for transmitting various types of information. Such a single network includes at least two groups of transceiver devices capable of establishing radio communication directly with each other within a group (operating in a peer-to-peer), and using wire lines, such as existing power lines, for communication with transceivers of another group.

Currently, Wireless Local Area Networks (WLANs) are becoming more widespread in the field of computer science and video communications for the transmission and distribution of data and other information between multiple terminals on the same site, for example, between those located in the same or neighboring rooms with personal computers, laptop computers, electronic secretaries, printers and other devices, without limiting the mobility of these devices. Due to the fact that the radio coverage area and the range of such WLANs are very limited due to the small power of user transceiver devices, remote user groups are usually combined into a single network by laying special connecting wires. Laying such wire lines requires additional costs. In recent years, hybrid networks have emerged in which existing wired lines, such as telephone lines and power lines, have been used to integrate remote WLANs into a single network. Hybrid networks are usually organized using routers - bridge devices or gateway devices. There are various methods of transmitting information in such hybrid networks and devices for implementing these methods [1-10].

So, there is a known method of transmitting information in a hybrid network, including local area networks connected to the main wired network via routers, and temporary local area networks (ad hoc LAN), not connected to the main network [1]. The method includes defining identifying parameters that define multicast groups of terminals for each temporary network, and identifying these temporary networks (ad hoc LAN) using said identifying parameters. Identifying parameters for defining multicast groups forming a temporary network are specified by transmitting an identifying test message through one of the terminals to other terminals and waiting for a certain time for the corresponding response message. Terminals, depending on whether they are included or not included in this multicast group, send the corresponding response message or do not respond to the test message.

The known method provides the transmission to the terminals forming various temporary local area networks, messages using the same multicast address. However, the procedure for determining a specific temporary local network takes considerable time, which leads to a delay in the receipt of information by the terminals.

A well-known hybrid network [2], including a router - a central (master) system for wireless communication and slave systems for exchanging data with data processing terminals. The central system includes a local converter for converting information received from the wireless network and inputting it into the power line, a converter for converting information received on the power line and transmitting it to the wireless network, as well as equipment for transmitting information via the power line. Each slave system includes a local converter for converting information received from the data processing terminal and transmitting it to a power line, as well as equipment for transmitting information through a power line.

In the well-known hybrid network, data processing terminals transmit information to a wireless network and receive information from it only through a central system and are not able to communicate directly with each other, which reduces the functionality of the network.

A well-known hybrid network router [3], including an antenna for radio communication with terminals, a receiver, a transmitter, a converter for converting information received from the terminals and inputting it into a power line, a converter for converting information received through a power line and transmitting it to a wireless one network, as well as the control unit, power supply and connector for connecting to the power line.

The known router allows the exchange of information between wireless terminals through existing power lines, however, the input of this information into the mentioned line is made only after it is received from the terminal, which slows down the communication process.

The closest set of essential features to the claimed invention is a method of transmitting information in a hybrid network [9], including a wired local area network connected via bridging means - routers with a wireless local area network. The prototype method includes transmitting an information packet by one of the transceiving devices of the wireless LAN, receiving, recognizing and storing the information packet in the buffer memory of the first router, waiting for the router for a predetermined time for the first signal confirming receipt of the information packet by the addressee of said wireless LAN, the absence of the first mentioned signal, the transmission by the first router of the second signal confirming reliable luchenie information packet and rebroadcast it TRD-destination wireless network, either directly or transmitting the information packet to the wired line. In the second case, the second router receives the information packet from the wire line, recognizes it, and then passes the information packet to the destination transceiver-device of the wireless LAN.

A disadvantage of the known method of transmitting information in a hybrid network is the excessive delivery time of information packets due to the delay in relaying the packet due to the need to wait for a possible signal to appear on the reception of the information packet directly by the destination transceiver.

A hybrid network is known [10], including a plurality of wireless transceivers forming a wireless network, and a plurality of wired transceivers forming a wired network, in particular, using existing power lines for communication. A wireless network is connected to a wired network using at least two bridges. Each of the routers includes a wired transceiver, a wireless transceiver, a processor for processing information packets for transmission and reception by radio and a wired line, and a buffer memory for said packet, the first input / output of the wired transceiver being connected to the wired line, and its other inputs / outputs are connected to the inputs / outputs of the processor, the first input / output of the wireless transceiver is connected to the antenna device, and its other the inputs / outputs are connected to the inputs / outputs of said processor coupled to said buffer storage device.

The relay of the information packet in this hybrid network is carried out only after it has been completely received by the router and stored in its buffer storage device. As a result, the delivery time of information in such a network is excessively high.

A known hybrid network router [10], including a wired network transceiver, a wireless network transceiver with an antenna device, an information packet processing processor for transmitting and receiving them by radio and a wired line, including an access controller in a wireless environment and an access controller in a wired line, and a buffer memory for storing and storing the received information packet.

A well-known router starts transmitting an information packet only after it has been completely received by the router and stored in its buffer storage device. As a result, the delivery time of the information packet is excessively high.

The present invention was the creation of such a method of transmitting information, such a hybrid network and its included router, which, while maintaining the advantages of prototypes, would reduce the time of delivery of data or other information to the addressee.

This invention is based on the synchronous transmission of fragments of an information packet as they are received by the router after receiving and recognizing the initial fragment of this packet. Such synchronous fragment-wise reception / transmission of an information packet, instead of receiving and storing the entire information packet and its subsequent transmission, allows to reduce the time cycle of information reception / transmission and thereby speed up data exchange in a hybrid network.

The problem is solved in that in a method for transmitting information in a hybrid network consisting of at least one wireless transceiver device, at least one wired transceiver device and at least one router capable of communicating with said transceiver devices of said network, including transmitting one of the transceiving devices of the said network of the information packet, the router receiving the initial fragment of the packet, storing the buffer memory of the router of the received initial packet fragment, the router transmitting the fragment stored in the said storage device to the network destination, simultaneously receiving the next packet fragment and storing it, repeating the cycle: the router transmitting the fragment stored in the said storage device, simultaneously receiving the next fragment and storing it in the mentioned storage device, up to the last packet fragment, the transmission by the router is remembered th memory device in said last fragment information packet network destination.

When receiving a fragment of an information packet, it can be recognized and stored in the memory in a recognized form.

Upon recognition of the initial fragment of the information packet, it is possible to determine the parameters of the packet reception and set the transmission parameters of the information packet to the addressee.

As such parameters, one can use the parameters of the spectra of the information packet and its speed of reception and transmission.

In the case of transmitting an information packet from one wireless transceiver to another wireless transceiver using a wired line and two routers, the following operations can be additionally performed.

Receive from the wired line by the second router the initial fragment of the packet transmitted by the first router; remember in the buffer memory of the second router the received initial packet fragment; transmit the initial fragment stored in the buffer memory to the second router to the wireless transceiver-destination device of the hybrid network, at the same time receive another packet fragment from the first router and store it in the buffer memory; repeating the cycle of the second router transmitting the fragment stored in the said storage device, simultaneously receiving the next fragment from the first router and storing it in the buffer storage device, up to the last fragment of the said packet; transmit by the second router the last fragment of the information packet stored in the buffer storage device to the addressee of said network.

Ensuring the minimum transmission time of the information packet with a high signal-to-noise ratio in the inventive method is achieved by the implementation of fragments of information relaying them with a low time delay while receiving.

The hybrid network for which the claimed method is intended includes at least one wireless transceiver, at least one wired transceiver and at least one router capable of communicating with said transceivers of said network. Each router includes a wired transceiver with a matching wire line device, a wireless transceiver with an antenna device, an information packet processing processor for synchronously receiving and transmitting fragments of the said packet over the air and the wire, and a buffer storage device for a fragment of the packet, the first input / the output of the wireline transceiver is connected through a matching device to the wireline, and its other inputs / outputs are connected to the inputs / outputs of the processor, the first input / output of the wireless transceiver is connected to the antenna device, and its other inputs / outputs are connected to the inputs / outputs of the processor connected to the buffer memory.

A hybrid network may include at least two wireless transceivers.

As a wired line in a hybrid network, a power line may be used.

The problem is also solved with the help of a hybrid network router, including a wired communication transceiver with a wireline matching device, a wireless communication transceiver with an antenna device, an information packet processing processor for synchronously receiving and transmitting fragments of the said packet by radio and wire and a buffer storage device for a fragment of the said package, while the first input / output of the wireline transceiver is connected through a matching device in to the wire line, and its other inputs / outputs are connected to the inputs / outputs of the said processor, the first input / output of the wireless transceiver is connected to the antenna device, and its other inputs / outputs are connected to the inputs / outputs of the said processor connected to the buffer memory device.

The router processor may include a device for detecting and recognizing a fragment of an information packet, a device for controlling and selecting a transmission / reception mode, equipped with a memory block of a structure of said network, a device for encoding a transmitted fragment of a said packet, a device for selecting a spectrum of an information packet, a frequency synthesizer, and a synchronizer for receiving / transmitting fragments of information packet, while the first and second inputs of the device for detecting and recognizing a fragment of the information packet of the connection respectively, with the second output of the wired transceiver and the second output of the wireless transceiver, the first output of the device for detecting and recognizing a fragment of the information packet is connected to the first input of the said buffer storage device, and its second output is connected to the first input of the control device and selecting the transmit / receive mode the first output of which is connected to the second input of the wireline transceiver, the second output is connected to the second input of the transceiver wirelessly connection, the third output is connected to the input of the spectrum picker of the information packet, the fourth output is connected to the input of the transmit / receive synchronizer, the fifth input / output is connected to the memory block of the network structure, the sixth output is connected to the first input of the encoding device of the fragment of the information packet, and the seventh output is connected with the second input of the said buffer storage device, the output of which is connected to the second input of the encoding device of the said fragment, the first and second outputs of which are connected respectively with the third inputs of the wireless transceiver and the wireless transceiver, the fourth inputs of which are connected respectively to the first and second outputs of the frequency synthesizer, the input of which is connected to the output of the spectrum selection device of the information packet, the first and second outputs of the transmit / receive synchronizer are connected respectively to the fifth inputs of the transceiver wired communication and wireless transceiver.

The antenna device of the router can include an antenna with a directional or controlled radiation pattern, which allows you to increase the range of communication with wireless transceivers of the hybrid network or to limit the reception / transmission zone.

The claimed invention is illustrated in graphic materials, where:

figure 1 schematically shows a hybrid network in which information is transmitted by the claimed method;

figure 2 and 3 shows a block diagram of the operations performed by the router when receiving and transmitting fragments of an information packet, while figure 2 shows a part of a block diagram related to receiving fragments of an information packet by a router from a wireless line and transferring them to a wired line communication, and FIG. 3 shows a part of a block diagram related to receiving fragments of an information packet by a router from a wired line and transmitting them to a wireless communication line;

figure 4 shows a block diagram of the inventive router;

figure 5 shows the inventive router with one of the options for a possible implementation of the processor processing the information packet;

in Fig.6 shows time intervals illustrating the process of receiving and transmitting an information packet by the router of the claimed method, while Fig.6a) shows the time interval for receiving the input information packet, Fig.6b) shows the time interval for receiving and recognizing fragments 6, c) shows the time interval for determining the reception parameters, Fig.6, d) shows the time interval for setting the transmission parameters, Fig.6, e) shows the time interval for storing the recognized fragments, in Fig.6, f ) shown belt reading interval detected fragments in Figure 6, g) is a transmission timeslot fragments, as in Figure 6, h) shows a transmission timeslot information packet.

A hybrid network in which information is transmitted by the claimed method includes spatially separated wireless and wired transceivers 1 ₁ , 1 ₂ , ..., 1 _n and routers 2 ₁ , 2 ₂ , ..., 2 _m connected by a wired line 3. Wireless transceivers 1 ₁ , 1 ₂ , 1 ₃ , 1 ₅ , ..., 1 _n and routers 2 ₁ , 2 ₂ , 2 ₃ , ..., 2 _m can be equipped with omnidirectional antenna devices 4 ₁ , 4 ₃ , 4 ₄ , 4 ₅ , 4 ₆ or antenna devices 4 ₂ , 4 ₇ , 4 ₈ , 4 ₉ , ..., 4 _n with a controlled radiation pattern.

As a wireline 3 in a hybrid network, existing power lines can be used.

Each of the routers 2 ₁ , ..., 2 _m , for example 2 ₁ (see FIG. 4), which is used to implement the inventive method for transmitting information in a hybrid network, includes a wired transceiver 5, a matching device 6, a wireless transceiver 7 with an antenna device, for example 4 ₁ , an information packet processing processor 8 for synchronously transmitting and receiving fragments of an information packet by radio and wire line and a buffer memory 9 for storing a fragment of said packet. The first input / output of the wire transceiver 5 is intended to be connected to the wire line 3 by means of a matching device 6, and its other inputs / outputs are connected to the inputs / outputs of the processor 8, the first input / output of the wireless transceiver 7 is connected to the antenna device 4 ₁ , and its other inputs / outputs are connected to the inputs / outputs of the processor 8, also connected to a buffer memory 9.

The processor 8 processing information packets for synchronous transmission and reception of fragments of the information packet by radio and wire line can be performed as follows (see figure 5). It includes a device 10 for detecting and recognizing a fragment of an information packet, a device 11 for controlling and selecting a transmit / receive mode, equipped with a hybrid network structure memory unit 12, a device 13 for encoding a transmitted fragment of the packet, a spectrum packet picking device 14, a frequency synthesizer 15, and a synchronizer 16 receiving / transmitting fragments of an information packet. The first and second inputs of the information packet fragment detection and recognition device 10 are connected respectively to the second output of the wireline transceiver 5 and to the second output of the wireless transceiver 7, the first output of the information packet fragment detection and recognition device 10 is connected to the first input of the buffer memory 9, and its second output is connected to the first input of the control device 11 and the selection of the transmission / reception mode, the first output of which is connected to the second the input of the wire transceiver 5, the second output is connected to the second input of the wireless transceiver 7, the third output is connected to the input of the spectrum picker 14, the fourth output is connected to the input of the transmit / receive synchronizer 16, the fifth input / output is connected to the structure memory unit 12 network, the sixth output is connected to the first input of the encoding device 13 fragment of the information packet, and the seventh output is connected to the second input of the buffer storage device 9, the output of which is connected to the second the input of the encoding device 13 of the aforementioned fragment, the first and second outputs of which are connected respectively to the third inputs of the wireless transceiver 7 and the wireless transceiver 5, the fourth inputs of which are connected respectively to the first and second outputs of the frequency synthesizer 15, the input of which is connected to the output of the selection device 14 spectrum of the information package, the first and second outputs of the synchronizer 16 receive / transmit are connected respectively to the fifth inputs of the transceiver 5 wire communication, etc. emoperedatchika 7 wireless.

Example 1. In accordance with the claimed method, the transmission of information in a hybrid network is as follows. Let one of the transceivers of the hybrid network (see Fig. 1), for example, a wireless transceiver 1 ₂ , transmit an information packet to another transceiver of this network, for example, a wired transceiver 1 ₄ . To this end, the transceiver device 1 ₂ with the help of the antenna device 4 ₂ transmits an information packet to one of the routers of the network with which it has a stable radio connection, for example, router 2 ₁ . The router 2 ₁ (see figure 4), which is in the mode of receiving signals in a wired and wireless communication lines (see figure 2), using its antenna device 4 ₁ and the transceiver 7 of the wireless communication receives the initial fragment transmitted by the transceiver 1 ₂ information packet and stores this fragment in the buffer memory 9. At the same time, the processor 8 recognizes it, determines the parameters of the packet reception, sets the parameters of the packet transmission to the addressee - wired transceiver Property 1 ₄ . Stored in the buffer storage device 9, the initial fragment of the information packet using the transceiver of the wire network 5 and the matching device 6 is transmitted to the wire line 3 to the wire transceiver 1 ₄ . In synchronism with the transmission of the initial packet fragment carried reception wireless transceiver 7 of the next packet fragment and storing it in the buffer memory 9. The transmission cycle router February ₁ stored in the buffer memory 9 fragment information packet and synchronous reception of the next fragment and storing it in the buffer memory 9 occurs until the last fragment of the information package. After the transceiver 5 transmits this last fragment, the router 2 ₁ again enters the signal reception mode in the wired and wireless communication lines.

Example 2. In the case of transmission of an information packet by a wired transceiver device, for example, device 1 ₄ , a wireless transceiver device of this network, for example, transceiver device 1 ₂ , the transceiver device 1 ₄ transmits the information packet over wire line 3 to one of the routers of the network that has stable radio communication with destination, e.g. router 2 ₁ . The router 2 ₁ (see figure 4), which is in the mode of receiving signals in a wired and wireless communication lines (see figure 2 and 3), using its transceiver 5 wired communication receives the initial fragment transmitted by the transceiver device 1 ₄ information packet and stores this fragment in the buffer memory 9. At the same time, it is recognized in the processor 8, the packet reception parameters are determined, and the packet transmission parameters are set to the recipient, the wireless transceiver 1 ₂ . Stored in the buffer storage device 9, the initial fragment of the information packet using the transceiver 7 of the wireless network and antenna device 4 ₁ is transmitted to the wireless transceiver 1 ₂ . Synchronously with the transmission of the initial fragment of the packet, the transceiver 5 receives the wire connection of the next fragment of the packet and stores it in the buffer memory 9. The cycle of transmission by the router 2 _{1 of the} fragment of the information packet stored in the buffer memory 9 and the synchronous reception of the next fragment and its storage in the buffer memory 9 occurs until the last fragment of the information package. After the transceiver 7 transmits this last fragment, the router 2 ₁ again enters the signal reception mode in the wired and wireless communication lines.

Example 3. If an information packet transmits one of the wireless transceivers to another wireless transceiver of the hybrid network (see Fig. 1), for example, the transceiver 1 ₂ transmits the information packet to the transceiver 1 ₅ , then after synchronous reception / transmission, as described above, fragments of the information packet by the router 2 ₁ fragments transmitted to it are received from the wire line by the router 2 ₄ having stable radio communication with the transceiver device 1 ₅ . Next, the router 2 ₄ performs a synchronous example / transmission of fragments of the information packet as described in example 2.

Thus, the routers of the inventive hybrid network carry out the relay of signals synchronously with a low delay necessary to recognize the minimum fragment of the information packet (see Fig. 6), as a result of which the maximum data rate with a high signal-to-noise ratio is provided.

The processor 8 of the router, for example 2 ₁ , as follows, receives and recognizes the received fragment of the information packet, determines the parameters for receiving the packet, sets the parameters for transmitting and transmitting the packet to the destination of the hybrid network (see FIGS. 5 and 6). When a signal is detected, for example, over a wireless line, the wireless transceiver 7 receives the initial fragment of the information packet, the device 10 for detecting and recognizing the fragment of the information packet converts it into binary code and stores the buffer memory 9 for the fragment of the packet. As the fragment is recognized, the control device 11 and the selection of the transmission / reception mode using the information packet spectrum selection device 14 determines the frequency spectrum parameters for synchronously receiving transmission of the information packet fragments over the wire line and sets the parameters of the frequency synthesizer 15 for the wire communication transceiver 5. After filling the buffer storage device 9 with a fragment of the information packet, the transceiver 5 enters the transmission mode and transmits the fragment encoded by the device 13, read from the buffer storage device 9, synchronously with the received transceiver 7, the next fragment of the information packet, but with a slight delay, determined by the filling time in the buffer storage device 9.

Likewise, the relay 21 transmits an information packet arriving on a wired communication line with the only difference that fragments of the information packet are received by the transceiver 5, and transmission by the transceiver 7.

The processor 8 may include a memory unit 12 for storing data representing the overall structure of the hybrid network. Based on a comparison of the current address contained in the information packet received by the router and the addresses stored in block 12, a decision can be made whether this packet should be relayed to the network destination.

Upon detection of the initial fragment of the information packet, the router can generate a busy signal for the communication line through which the received information packet will be broadcast.

Hybrid network routers can exchange service information, for example, about the addresses of wireless transceivers of the network, to provide further address relay information packets.

The above examples do not limit other possible implementations of the proposed method for transmitting information in hybrid networks.

SOURCES OF INFORMATION

1. US patent No. 6134587, G 06 F 15/16, 2000.

2. PCT Application WO 92/11717, H 04 L 12/46, 1992.

3. US Application No. 2002/0022467, H 04 M 9/00, 2002.

4. US Patent No. 6243571, H 04 Q 7/32, 2001.

5. RF patent №2121762, Н 04 В 7/26, 1998.

6. US patent No. 6282405, H 04 N 7/16, 2001.

7. US patent No. 5901362, H 04 In 7/24, 1999.

8. US patent No. 6028853, H 04 J 3/06, 2000.

9. US Patent No. 5,339,316, H 04 J 3/02, 1994.

10. PCT Application WO 01/59995, H 04 L 12/46, 2001.

Claims (8)

1. A method of transmitting information in a hybrid network consisting of at least one wireless transceiver device, at least one wired transceiver device and at least one router capable of communicating with said transceiver devices of said network, comprising transmitting said transceiver device network information packet, the router receives the initial fragment of the packet, storing in the buffer memory the router of the received initial fragment of the said packet, the router transmitting the fragment mentioned in the mentioned memory device to the addressee of the mentioned network, simultaneously receiving the next fragment of the said packet and storing it in the said memory device, repeating the cycle of the router transmitting the fragment stored in the said memory device, simultaneously receiving the next fragment and storing it in said storage device up to the last fragment nth of the aforementioned fragment and the transfer by the router of the last fragment of the said packet stored in the said storage device to the addressee of the said network. 2. The method according to claim 1, characterized in that when receiving a fragment of said packet, it is recognized and stored in said storage device in a recognized form. 3. The method according to claim 2, characterized in that upon recognition of the initial fragment of said packet, the parameters for receiving the information packet are determined and the transmission parameters of the information packet to the addressee are set. 4. The method according to claim 3, characterized in that the parameters of the spectra of the said packet and the speed of its reception and transmission are used as the mentioned parameters. 5. The method according to any one of claims 1 to 4, characterized in that when the information packet is transmitted by one of the wireless transceivers of said network containing at least two routers, the second router receives the initial fragment of the packet from the first router via a wire line, storing in the buffer memory of the second router of the received initial fragment of the said packet, the second router transmitting the memory stored in the said memory the wrinkled fragment to the wireless transceiver-receiver of the said network, simultaneously receiving from the first router the next fragment of the said packet and storing it, repeating the cycle of the second router transmitting the fragment stored in the said memory device, simultaneously receiving the next fragment from the first router and storing it until the last fragment of the mentioned packet, and the transmission of the second router stored in the aforementioned storage device after day fragment to said addressee of said network. 6. A hybrid network router, including a wired transceiver with a matching device for connecting to a wired line, a wireless transceiver with an antenna device, an information packet processing processor for synchronously transmitting and receiving fragments of an information packet over a radio channel and a wired line, and also a buffer storage device for a fragment of the mentioned package, while the first input / output of the wired transceiver is designed to be connected through a matching device yours to the wired line, and its other inputs / outputs are connected to the inputs / outputs of the processor, the first input / output of the wireless transceiver is connected to the antenna device, and its other inputs / outputs are connected to the inputs / outputs of the processor, connected to the buffer memory . 7. The router according to claim 7, characterized in that said processor includes a device for detecting and recognizing a fragment of an information packet, a device for controlling and selecting a transmission / reception mode equipped with a memory block of a structure of said network, an encoding device for a transmitted fragment of said packet, a device for selecting a spectrum of information a packet, a frequency synthesizer and a synchronizer for receiving / transmitting fragments of an information packet, wherein the first and second inputs of the fragment detection and recognition device This information packet is connected respectively to the second output of the wired transceiver and the second output of the wireless transceiver, the first output of the device for detecting and recognizing a fragment of the information packet is connected to the first input of the buffer memory, and its second output is connected to the first input of the control and mode selection transmit / receive, the first output of which is connected to the second input of the transceiver wire communication, the second output is connected to the second input m of the wireless transceiver, the third output is connected to the input of the information packet spectrum selection device, the fourth output is connected to the input of the transmit / receive synchronizer, the fifth input / output is connected to the memory block of the network structure, the sixth output is connected to the first input of the encoding device of the information packet fragment, and the seventh output is connected to the second input of the said buffer storage device, the output of which is connected to the second input of the encoding device of the said fragment, the first and second output of which are connected respectively to the third inputs of the wireless transceiver and wired transceiver, the fourth inputs of which are connected respectively to the first and second outputs of the frequency synthesizer, the input of which is connected to the output of the spectrum selection device of the information packet, the first and second outputs of the transmit / receive synchronizer are connected respectively to the fifth inputs of a wired transceiver and a wireless transceiver. 8. The router according to claim 6, characterized in that said antenna device includes an antenna with a directional or controlled radiation pattern.

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