RU2210865C1 - Method and interactive subscriber terminal for interactive subscriber communications - Google Patents

Abstract

FIELD: satellite communications. SUBSTANCE: proposed method intended for giving assigned subscribers remote access to corporative information resources and/or to Internet uses interactive subscriber terminal to organize interactive subscriber communications in satellite communication system incorporating geostationary satellites operating in different frequency bands and coupled with communication center; interactive subscriber terminal has separate request signal transmitting unit connected to transmitting antenna and response signal receiving unit connected to receiving antenna; transmitting antenna is directed toward geostationary satellite operating in frequency band designed for relaying request signals of subscriber terminals to communication center and receiving antenna is directed toward geostationary satellite operating in broadcast signal frequency band that receives response signals from communication center. Novelty is that information can be transmitted and received through geostationary satellites residing in different positions of geostationary orbits. EFFECT: enlarged operating range and reduced radiant power level. 2 cl, 3 dwg

Description

 The present invention relates to interactive communication systems that operate using satellites in geostationary orbits, operating in different frequency ranges and designed to provide remote access for fixed subscribers to corporate information resources and / or the Internet.

 A known communication system comprising an interactive satellite terminal comprising an external unit made in the form of a receiving antenna coupled to a receiving unit including a low-noise amplifier and a down converter and an internal channel-forming unit (or a special card installed in the subscriber’s computer). Interactivity in such a terminal is achieved by connecting a modem to the terminal, which transmits request commands to the ground communication center (Communication Center) via the land communication line, while using a geostationary satellite, information is transmitted from the ground communication center to all the subscribers who sent the request [1].

 A disadvantage of the known system is the fact that for the formation of requests, the subscriber must have a dedicated land line. Otherwise, interactivity will not be achieved, since the request signal must go through multiple switching before it is delivered to the ground communication center.

 Another, more perfect solution, chosen as the closest analogue, is the organization of the request channel through the same geostationary satellite, through which the subscriber receives the information requested in the ground communication center (in the Communication Center) [2]. An interactive satellite terminal in this case contains a transceiver antenna connected to a transceiver unit, which is an external unit of an interactive subscriber terminal, and a channel-forming unit (or receiving and transmitting channel-forming cards installed in the subscriber’s personal computer), which is an internal unit of the interactive terminal. The main advantage of this solution is the ability to deliver a request from a subscriber without intermediate switching to a ground communication center.

 The disadvantage of this solution is the fact that the subscriber interactive terminal can generate and transmit request signals only through the same geostationary satellite, through which it receives response signals from the ground communication center. This drawback is especially apparent when working through a geostationary satellite operating in the frequency band of the broadcast service of the Ku-band. This is explained by the fact that although broadcast satellites have a high level of equivalent isotropic radiated power (EIRP) in the working area (in the direction of transmitting information from the ground communication center to the subscriber), but the high value of their noise figure of merit for reception (in the direction from the subscriber to the center terrestrial communication) is often not provided in the entire working area assigned by the level of EIRP.

 Accordingly, it is possible to receive information from a satellite to a small-sized antenna, but for transmitting information, an antenna of a larger diameter than the receiving one is required, or it is necessary to increase the transmitter power of the external unit of the interactive subscriber terminal. In addition, the frequency range of the broadcasting satellite does not comply with the recommendations of the international standard ETSI TR 101 790 vl.1.1. for a line for receiving information from an interactive terminal. For example, the Bonum-1 satellite operates in the frequency band 17.8-18.1 GHz for reception, but this frequency band falls into the frequency range 17.7-19.7 recommended by ETSI TR 101 790 vl.1.1 for transmission on the satellite-Earth link.

 To address these shortcomings, an interactive subscriber communication method and an interactive subscriber terminal are proposed that operate in a communication system that includes satellites in geostationary orbits, operating in different frequency ranges and connected to a ground-based communication center (with the Communication Center).

 The problem being solved and the technical result achieved by which the present invention is directed is to ensure interactivity in the communication system and to improve the quality of the formation and delivery of subscriber requests and transmit information to all subscribers who have sent the request, as well as expand the working area, provide the ability to receive and transmit information through geostationary satellites in different positions of the geostationary orbit, and a decrease in the level of radiated power.

 The task and the specified technical results are achieved due to the fact that in the claimed method of interactive subscriber communication, carried out in a communication system, which includes satellites located at different positions of the geostationary orbit, operating in different frequency ranges and connected with the ground communication center (with By the communication center), which generates signals, including in the frequency band of broadcast signals, and with an interactive subscriber terminal, it is proposed, in contrast to the known technical solution considered above (2), in the interactive subscriber terminal, generate the request signals and transmit them in the direction of the satellite in the geostationary orbit, with a frequency range intended for relaying the request signals of the interactive subscriber terminals to the ground communication center, where the received request signals are identified, processed, formed response signals in the form of packets combined into a single digital stream with broadcast signals, and via a satellite in geostationary orbit, with a frequency range of broadcast signals transmit to the interactive subscriber terminal.

 At the same time, to implement the interactive subscriber communication method, an interactive subscriber terminal of a satellite communication system is proposed, which includes satellites located in geostationary orbits, operating in different frequency bands and connected to a ground communication center (with a communication center), containing a transceiver unit with a receiving and transmitting antennas connected to the subscriber using a channel-forming unit connected to the subscriber’s computer, different from the known solution in that the transceiver unit made in the form of a separate transmitting block of request signals connected to a transmitting antenna and a receiving block of response signals connected to a receiving antenna, while the transmitting antenna is directed towards the satellite in a geostationary orbit, with a frequency range intended for relaying request signals of interactive subscriber terminals to the ground communication center (to the Communication Center), and the receiving antenna is directed towards the satellite in geostationary orbit, with the frequency range of the signal receiving a response signal from a ground-based communication center, while in the ground-based communication center, the request signals received from the transmitting unit of the subscriber are identified and processed with the possibility of generating response signals in the form of packets combined into a single digital stream with broadcast signals, the transmitting and receiving antennas are mounted on poles with the possibility of independent targeting to the corresponding satellite, and the channel-forming unit is connected by separate cables to the transmitting and receiving units of the interactive subscriber the terminal.

 The essence of the claimed method and device is illustrated by the corresponding diagrams of a satellite communication system and a subscriber interactive terminal, wherein FIG. 1 shows a diagram of a communication system of an interactive subscriber terminal when organizing a request channel over a land line (1), FIG. 2 shows a diagram of a communication system and an interactive subscriber terminal when organizing a request channel and a response channel through the same geostationary satellite (2), FIG. 3 shows a diagram of a communication system and a claimed subscriber terminal when organizing a request channel through a single geostationary satellite, and the channel receiving the requested information through another geostationary satellite. The following notation is used in these figures.

In FIG. 1:
1 - external unit, which is a receiving input device of an interactive subscriber terminal,
2 - a receiving antenna receiving signals from a satellite, which is part of the terminal,
3 - internal channelization unit included in the interactive subscriber terminal,
4 - personal computer of the subscriber of the interactive subscriber terminal,
5 - a modem that transmits request signals to a ground communication center via a land line from an interactive subscriber terminal, connected to a subscriber’s personal computer,
Center - ground communication center (Communication Center),
Cp1 - geostationary satellite,
K - switching unit.

In figure 2:
1 - external transceiver unit of an interactive subscriber terminal,
2 - transceiver antenna associated with the transceiver unit of an interactive subscriber terminal,
3 - internal channelization unit of the interactive subscriber terminal,
4 - personal computer of the subscriber of the interactive subscriber terminal, Center - ground communication center (Communication Center),
Cp1 is a geostationary satellite through which a request channel and a response channel are organized.

In figure 3:
1 - receiving unit of an interactive subscriber terminal,
2 - receiving antenna of the receiving unit of the interactive subscriber terminal,
3 - transmitting unit of an interactive subscriber terminal,
4 - transmitting antenna of the transmitting unit of the interactive subscriber terminal,
5 - internal channelization unit of an interactive subscriber terminal installed at the subscriber and connected to the subscriber’s personal computer,
6 - personal computer of the subscriber of the interactive subscriber terminal,
Cp1 - the first geostationary satellite with a frequency range of broadcast signals,
Ср2 - the second geostationary satellite with a frequency range intended for relaying request signals of interactive subscriber terminals, Center - a ground communication center (Communication Center) with receiving and transmitting antennas, respectively, receiving and transmitting stations of the ground communication center (Communication Center).

 The essence of the claimed method and device that implements the method is as follows (figure 3).

 To provide fixed subscribers with access to corporate information resources, the interactive communication system contains a ground-based communication center (Communication Center) with receiving and transmitting antennas of the respective communication stations, in which the incoming information is identified and processed accordingly. The communication system also includes interactive subscriber terminals, each of which has two antennas, one transmitting (4) and one receiving (2), which are mounted on a support (s) with the possibility of independently targeting each of the antennas to its satellite and connected respectively to transmitting and receiving units made separate and being external transmitting and receiving units of the terminal, wherein each of the interactive terminals contains an internal channelization unit (5) installed at the subscriber and connected to cite personal computer user. The channel-forming blocks provide, upon reception, the conversion of information that modulates the carrier intermediate frequency of the signal into information on the telephone channel, data channel, and the like. (depending on customer requirements) and inverse transformation - during transmission. The channel-forming unit, as a rule, consists of up and down frequency converters, a modem (modulator and demodulator), interface units with external telecommunication equipment, depending on the desired and / or necessary protocols and interfaces. As channel-forming means can be used, for example, receiving and transmitting channel-forming cards installed in a personal computer.

 The functioning of the proposed interactive communication system and an interactive subscriber terminal, included in its composition, implementing the claimed method, is as follows.

 The receiving and transmitting antennas (2, 4), respectively, of the receiving and transmitting blocks of the interactive subscriber terminal are fixed in the maximum proximity to each other. The receiving antenna (2) is aimed at the first geostationary satellite Ср1 (for example, broadcasting), and the transmitting antenna (4) is aimed at the second geostationary satellite Ср2. Accordingly, a receiving unit (1), which is an external input receiver of an interactive subscriber terminal, is connected to an irradiator of a receiving antenna (2), and a transmitting unit (3), which is an external transmitting device of an interactive subscriber terminal, is connected to an irradiator of a transmitting antenna (4). In this case, the receiving (1) and transmitting (3) blocks are connected by separate cables to the corresponding input and output of the internal channel-forming unit of the interactive subscriber terminal. Receive and transmit signals (request signals) via separate cables are sent to the internal channel-forming unit or from the internal channel-forming unit (5) installed at the subscriber and connected to a personal computer (6). The request signals emitted by the transmitting antennas of the interactive terminals of the subscribers are transmitted via the Ср2 satellite located in the geostationary orbit and having a frequency range intended for relaying the request signals of the interactive subscriber terminals to the receiving station of the ground communication center (Communication Center), where they are identified and processed As a result, packets of the requested information are formed, which arrive at the transmitting station of the ground-based communication center, where response signals are generated in The digital digital stream with broadcasting signals is transmitted through the satellite Ср1 in the broadcasting mode located in the geostationary orbit and having a frequency range of broadcasting signals to the corresponding interactive subscriber terminals. The receiving antennas (2) of the receiving units (1) of the interactive subscriber terminals receive this stream of information, in which the internal channel-forming unit (5) of each terminal selects, selects only its information corresponding to the signal (s) of the request. In this case, to synchronize the multi-access mode in the ground-based communication center, the difference in time delays in the propagation of signals is taken into account, taking into account the operation of the interrogation channel (transmission of interrogation signals) through the geostationary satellite Ср2, and the reception of response information (response signals) through the geostationary satellite Ср1.

 Thus, due to the use of two satellites located in geostationary orbits, operating in different (corresponding) frequency bands and connected to the ground-based Communication Center (or to the Communication Center), and also due to the separate use of the transmitting and receiving units of the interactive subscriber terminal, connected Separate cables with an internal channel-forming unit connected to the subscriber's computer provide remote access for fixed subscribers to corporate information resources and / or hildren Intenet.

 In addition, the present invention extends the working area, reduces the level of radiated power and provides the ability to receive and transmit information through geostationary satellites located in different positions of the geostationary orbit.

 The claimed method and device are most acceptable when working through the Space Communication Center (teleport), which has the appropriate antennas for interaction with satellites Ср1 and Ср2, associated with the specified Center.

Sources of information
1. Anpilogov V.R. Satellite technologies for interactive access to information resources. Technologies and means of communication, 1, 2002

 2. RU 98118933 A, M.cl. H 04 N 7/173, published. 08/20/2000 (the closest analogue).

 3. RU 98118933.

Claims (2)

 1. The method of interactive subscriber communication in a satellite communication system, including communication satellites located in geostationary orbits, operating in different frequency bands and connected to a ground communication center, generating signals, including in the frequency band of broadcast signals, and an interactive subscriber terminal, characterized the fact that in the interactive subscriber terminal they generate request signals and transmit them in the direction of one of the communication satellites located in a geostationary orbit, with a frequency range, designed m for relaying request signals of interactive subscriber terminals to a ground communication center, where the received request signals are identified, processed, response signals are generated in the form of packets combined into a single digital stream with broadcast signals and through another communication satellite with a frequency range of broadcast signals located at the geostationary orbit, transmit to the interactive subscriber terminal.  2. Interactive subscriber terminal of a satellite communication system, including communication satellites located in geostationary orbits, operating in different frequency ranges and connected to a ground communication center, for implementing the method, comprising a transceiver unit with a receiving and transmitting antenna connected to the subscriber using a channelization unit connected to the subscriber’s computer, characterized in that the transceiver unit is made in the form of a separate transmitting block of request signals connected to a transmitting antenna, and a receiving unit of response signals connected to the receiving antenna, while the transmitting antenna is directed towards one communication satellite located in a geostationary orbit, with a frequency range for relaying the request signals of interactive subscriber terminals to the ground communication center, and the receiving antenna is directed to the side another communication satellite in geostationary orbit and relaying response signals from the ground-based communication center, in which request signals received from the transmitting unit are cient identified and treated to generate response signals as packets combined into a single digital stream, wherein the transmitting and receiving antenna mounted on the supports with possibility of independent targeting appropriate communication satellite, a separate channelization block is connected by cables to transmitting and receiving units.

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