RU2222870C2 - Household network system for two-way multimedia services - Google Patents

Abstract

FIELD: two-way multimedia services. SUBSTANCE: proposed household network incorporating single decoder of cable television channels has plurality of display units, plurality of subscriber equipment panels for processing service-including signals supplied through transmitting medium to feed processed service- including signals to plurality of display units, plurality of high-frequency modulators designed for modulating signals pointing to list of services and obtained at output of plurality of subscriber equipment panels at different channel frequency bands, and mixer connected to each of plurality of high-frequency modulators designed for mixing up channel-modulated service-including signals. EFFECT: ability of controlling plurality of display devices at a time. 8 cl, 3 dwg

Description

 The present invention relates to two-way multimedia services, in particular to a home network system for interacting with a plurality of television receivers through a multi-channel modulation scheme.

State of the art
A good example of two-way multimedia services can serve as a video-on-demand service (hereinafter referred to as “VPZ services”). VPZ services allow subscribers to watch the desired program by placing an order at any time. Thus, subscribers are not required to watch a specific TV show in accordance with the program offered by the television broadcaster. The list of services offered by the VBF includes a demonstration of films, as well as a demonstration of the recording of other recently transmitted television programs, in particular educational, sports, etc. In accordance with this, VPZ services can be provided when the software provider provides the required video information and network services when distributing information to the subscriber.

 Figure 1 illustrates elements of the VBW system, which includes a server containing an input server 4, an application server 6, a network 8, and a plurality of cable television decoders (set-top boxes) 10. A variety of video information contained in the video tape 2, which is provided by the video program provider, is input to the application server 6 through the input server 4. The application server 6 remembers the entered video information, and the video management application software is used to selectively transmit the video information to the subscriber’s end equipment (i.e., to a cable television decoder known as a satellite indoor television receiver) as required by the end user. Network 8, which includes a core network, a node access device, and an access network, must be broadband and capable of transmitting information in blocks of several Mbps. For transmission to and from the core network 8, various data transmission media such as optical fiber, coaxial cable, telephone wire, air medium for satellite communications, etc. can be used. Similarly, a request from the end user is transmitted via remote control to the application server 6 programs through the network 8. A decoder of 10 cable television channels is usually installed in the subscriber’s house so that it can act as an end station for controlling a broadband transmission path for the purpose decoding the digital information to be rendered on a television screen, and to perform a number of other applications.

 Previously, there was a tendency to increase the number of household or office television stations. However, if the subscriber has a need for two-way multimedia services such as VB services, each subscriber television receiver should be equipped with an individual decoder for cable television channels. At present, there is no single decoder of cable television channels available for controlling a number of television receivers in order to provide VB services.

 In the most developed countries, on average 2.8 television sets per average family. Therefore, there is a need to implement a single cable television channel decoder for controlling at least 3 television receivers simultaneously.

Disclosure of invention
An object of the present invention to solve the problems inherent in the prior art is to provide a home network system with one cable television decoder for simultaneously controlling a plurality of display devices, as well as a home network system capable of simultaneously providing a plurality of display devices with service contents delivered from a network using a multi-channel modulation method.

 To solve the problem according to the present invention, there is provided a remote control device connected to a network for managing multimedia information presented to a subscriber on a plurality of display units, comprising a plurality of cable television decoders connected to a remote control device for converting signals received via a transmission medium into corresponding signals containing the service; a plurality of high-frequency modulators connected to a plurality of cable television channel decoders for modulating converted signals containing services in different channel frequency bands in which a certain value of the channel frequency corresponds to a specific display unit; a mixer connected to each of the high-frequency modulators for mixing the modulated signals from the plurality of high-frequency modulators to be transmitted to the plurality of display units; a switch connected to the mixer for selectively selecting an output signal from the mixer or a television broadcast signal received through an antenna sensitive to a request made by a subscriber; and a distribution device connected to the switch for distributing the output from the switch to the plurality of display units.

 In accordance with one aspect of the present invention, high frequency modulators, mixing means and switching means are located in one unit.

 According to yet another aspect of the present invention, the cable TV channel decoder panels include a cable television channel decoder main panel connected to the network via a transmission medium, and a plurality of cable TV channel decoder sub-panels, each of which is connected to a cable TV channel decoder main panel.

 In accordance with another aspect of the present invention, the main panel of a cable television channel decoder provides communication with a subscriber to selectively control the output signals of the switching means.

 In accordance with yet another aspect of the present invention, a cable television channel decoder panel demodulates signals from a network using a carrier-suppression amplitude-phase modulation (AFMN) method, and modulates an uplink signal using a quadrature phase shift keying method.

Brief Description of the Drawings
The above and other objectives, features and advantages of the present invention will become more apparent from the following description with reference to the accompanying drawings, including:
figure 1 is a schematic drawing of a system illustrating the design of a VLW system (video on demand);
2 is a block diagram illustrating a structure of a home network system according to a preferred embodiment of the present invention;
FIG. 3 is a block diagram illustrating a structure of a main panel of a cable television decoder of FIG. 2.

Description of Embodiments
Below will be a more detailed description of the preferred embodiments of the present invention. In the drawings, end-to-end numbering of elements is used. For clarity, a detailed description of the known functions and configurations used will be omitted, as they may obscure the subject matter of the present invention.

 In FIG. 2 is a block diagram illustrating a circuit structure of a home network according to a preferred embodiment of the present invention.

 As shown in FIG. 2, a cable television channel decoder includes a main panel of a cable television channel decoder 20A and a plurality of sub-panels 20B, ..., 20N of cable television channel decoders. Each of the panels of cable television channel decoders can be easily mounted on a cable television channel decoder with a characteristic similar to that of a printed circuit board of a personal computer (PC) module, and removed from it. The total number of panels, including the main panel 20A and subpanels 20B,. . . The 20N cable channel decoders mounted on the cable channel decoder correspond to the number of display units 30A, 30B, ..., 30N. For example, if the number of display units included in the home network system is 5, then the total number of panels, including the main panel 20A of the cable TV channel decoder, and the subpanels 20B, ..., 20N of cable TV channel decoders mounted on the cable channel decoder is 5.

 The main panel of the cable television channel decoder 20A is connected to the network via a transmission medium such as optical fiber, coaxial cable, twisted pair cable (telephone wire), satellite broadcast air, etc., and each of a plurality of subpanels 20B, ... The 20N cable TV channel decoders are connected to a network interface device (SIU) of the main cable channel channel decoder panel 20A.

 FIG. 3 is a block diagram illustrating an internal structure of a main panel 20A of a cable television channel decoder, as shown in FIG.

 As shown in FIG. 3, the main panel of a cable television channel decoder 20A comprises a microprocessor 32, a storage device 34, a network interface device (SIU) 36, a moving object expert panel (EGD) 38, an audio and television output section 40, a section 42 I / O and section 44 of the user interface. The microprocessor 32 controls the full operation of the main panel 20A of the cable television channel decoder. The storage device 34 includes a read only memory (ROM) and a random access memory (RAM). Various microprocessor 32 control programs are recorded in the ROM, and various other control signals and data are stored in the RAM and read from it under the control of the microprocessor 32. The SIU 36 is connected to the network via a transmission medium such as a telephone line or optical cable and modulates and demodulates the signals transmitted and received between the network and the EGDO decoder 38, and outputs the modulated or demodulated signals from the latter.

 More specifically, the SIU 36 consists of a transmitter and a receiver. The receiver demodulates the EGDO data stream introduced through the transmission medium using a carrier-suppression amplitude-phase modulation (AFMN) -16 method and outputs the demodulated EGDO data stream to the EGDO decoder 38. Conversely, the transmitter modulates the data in the upstream direction using the quadrature phase shift keying (QPS) method and outputs the modulated data to the network via the data medium.

 The EGDO decoder 38 is controlled by the microprocessor 32 and decodes the demodulated EGDO data stream received from the SIU 36, followed by the transmission of the decoded EGDO data stream in the form of audio and video data to the audio and television output section 40.

 The television output stage of the audio and television output section 40 converts the digital video signals through the EHDO decoder 38 into the corresponding analog video signals and outputs the converted analog video signals to an external display unit through the input / output section 42 (i.e., the audio / visual (B / W) connector). On the other hand, the audio output stage of the audio and television section 40 converts the digital audio signals processed by the EHDO decoder 38 into corresponding analog audio signals when amplifying the converted analog audio signal for transmission to an external display unit via the input / output section 42 (i.e., audio / visual (З / В) connector). Section 44 of the subscriber interface is a circuit for establishing communication with the subscriber, which includes a remote control with key input.

 The sub-panels 20B, 20C, ..., 20N of the cable television channel decoders are configured in a manner similar to the configuration of the main panel 20A of the cable television channel decoder, but do not contain the SIU 36 and the user interface 44, as shown in FIG. 3. Thus, a description of such components due to their redundancy is omitted except that the microprocessor 32 included in each of the subpanels 20B, 20C, ..., 20N of the cable television channel decoders is in communication with the microprocessor 32 of the main channel decoder panel 20A of the cable channel television and performs the corresponding operations under the control of the microprocessor 32 of the main panel 20A of the cable television channel decoder. In addition, as shown in Fig. 2, the main panel 20A of the cable TV channel decoder and the subpanels 20B, 20C, ..., 20N of the cable TV channel decoders are connected to the respective high-frequency modulators 22A, 22B, ..., 22N so that each of the panels, which includes the main panel, and subpanels 20A, 20B, 20C,. .., 20N cable channel decoders corresponds to one of the associated high-frequency modulators 22A, 22B, ..., 22N. For simplicity, each of the signals output from the main panel 20A of the cable television channel decoder and sub-panels 20B, 20C, ..., 20N of the cable television channel decoder will hereinafter be referred to as “service content signals”.

 High-frequency modulators 22A, 22B, .... 22N modulate the corresponding SIGNALS CONTAINING SERVICES derived from the main panel 20A of the cable TV channel decoder and sub-panels 20B, 20C, .... 20N cable TV channel decoders in different channel frequency bands assigned to each the channel of the respective display units 30A, 30B, ..., 30N, as shown in FIG. High-frequency modulators transmit correspondingly modulated SIGNALS CONTAINING SERVICES to mixer 24. Mixer 24 mixes channel-modulated SIGNALS CONTAINING SERVICES, which are output together from high-frequency modulators 22A, 22B, .... 22N, for transmission to switching section 26. The switching section 26 outputs either regular television broadcast signals received through the antenna or the output signals of the mixer 24 to the display units corresponding to the switch control signal SWC received from the microprocessor 32 of the cable television channel decoder main panel 20A, in which the switch control signal is used to select a specific channel in response to a request made by the subscriber. After that, the switched or selected signals are transmitted to the distribution device 28. The distribution device 28 distributes the output signals from the switching section 26 to a plurality of television receivers 30A, 30B, ..., 30N, respectively.

 The block indicated by reference numeral 100 in FIG. 2, which comprises a plurality of high-frequency modulators 22A, 22B, ..., 22N, a mixer 24 and a switching section 26, is preferably made in one assembly 100. A block 100 is provided with increased efficiency.

 Below will be explained in more detail the operation of the system according to a variant implementation with reference to figures 2 and 3.

 When the SIU 36 of the main panel of the cable television channel decoder 20A receives data containing services (digital television signal, Internet data, VHF data, etc.) from the network through a transmission medium such as optical fiber, coaxial cable, twisted pair cable (telephone wire ) and the satellite transmission air environment, SIU 36 demodulates received data containing services. Then, the SIU 36 supplies demodulated data containing services to the EHDO decoder 38 of the main panel 20A and the subpanels 20B, 20C, ..., 20N of the cable TV channel decoders.

 The constituent elements of the main panel 20A of the cable television channel decoder and subpanels 20B, 20C, ..., 20N of the cable television channel decoders associated with FIG. 3 are configured to generate signals containing services. After that, the main panel 20A of the cable TV channel decoder and the subpanels 20B, 20C, ..., 20N of the cable TV channel decoders supply the SIGNALS CONTAINING SERVICES to the high-frequency modulators 22A, 22B, ... 22N, respectively. At this point, the SIGNALS CONTAINING THE SERVICES are in the form of an analog signal and can be classified as a video signal, an audio signal, and a text signal. Each of the high-frequency modulators 22A, 22B, ..., 22N modulates the SIGNALS CONTAINING THE SERVICES output from the main panel 20A of the cable television channel decoder and sub-panels 20B, 20C, ..., 20N cable television channel decoders in different channel frequency bands, which assigned to each channel of the respective television receivers 30A, 30B, .... 30N. Then, the modulated service content signals in the respective frequency channels are supplied to the mixer 24. For example, the modulated frequency of channel A of the high-frequency modulator 22A can be set to 55.25 MHz, the modulated frequency of channel B of the high-frequency modulator 22B at 67.25 MHz, the modulated frequency of channel C high-frequency modulator 22C at 73.25 MHz, ..., the modulated frequency of channel N of the high-frequency modulator 22N at 135.25 MHz, respectively. In the case of the broadcasting system of the NCCT (National Committee of Television Standards), given that the modulated frequency signal from the high-frequency modulator is output to 3 channels (image carrier frequency 61.25 MHz) or 4 channels (image carrier frequency 67.25 MHz), each of the channel frequencies can be used as in the case of the NCCT system.

 The mixer 24 mixes the corresponding modulated SIGNALS CONTAINING SERVICES derived from the high-frequency modulators 22A, 22B, ..., 22N, with the aim of applying to the switching section 26. At this time, the frequency bands outputted from the mixer 24 are in the range from 54 MHz to 140 MHz, as described above.

 In addition, the standard television broadcast signal received through the antenna is supplied to the switching section 26. The switching section 26 selects one of the television broadcast signals received through the antenna, or the output signals from the mixer 24 in accordance with the switch control signal SWC coming from the microprocessor 32 of the main panel of the cable television channel decoder 20A. The control signal of the switch is based on the selection of the viewing area made by the subscriber. Then, the distribution device 28 distributes the output of the switching section 26 to a plurality of television sets 30A, 30B, .... 30N, respectively.

 Therefore, the subscriber watching television on television receivers 30A, 30B, ..., 30N, can see various video programs on demand in accordance with the channel selected by the subscriber. For example, when the subscriber of the television receiver 30A uses the remote control of the cable television channel decoder to selectively select signals containing the desired services for the television receiver 30A, and selects channel A using the remote control of the television receiver 30A, he can see the list of services provided through high frequency modulator 22A. If the subscriber selects channel B, then he can see the list of services provided through the high-frequency modulator 22B.

 As shown above, the advantages of the household network system of the present invention is that although many subscribers in different rooms use one subscriber’s equipment, that is, a satellite television broadcasting device connected to the network through one transmission medium, they can watch programs in in accordance with the proposed list of services through multiple display units. In addition, each of the many subscribers in the respective rooms can select the desired channel from among the N offered channels by selecting a channel for viewing television programs in accordance with the proposed list of services.

 In the description of the present invention, due to the fact that the most promising embodiment is currently considered to be VHF services as an example of two-way multimedia services, it was understood that the invention is not limited to the disclosed embodiment, should cover various modifications without going beyond the essence and scope of the attached formula inventions.

Claims (8)

1. A home network system connected to a network providing services for managing multimedia information presented to a viewer on a plurality of display units, comprising a plurality of cable television channel decoder panels, for converting data containing services received from said network through a transmission medium, into corresponding signals containing services, a plurality of high-frequency modulators connected to said plurality of cable TV channel decoder panels for mod of converting the converted signals containing services in different frequency bands of the channel, wherein a certain value of the channel frequency corresponds to a specific display unit from said plurality of display units, a mixer connected to each of the high-frequency modulators to mix the modulated signals from said plurality of high-frequency modulators to be supplied to said a plurality of display units, switching means connected to a mixer for selectively selecting an output signal from a mixer or a television broadcast signal received through an antenna sensitive to a request made by a subscriber, and a distribution device connected to switching means for distributing an output signal from the switching means to a plurality of display units. 2. The system according to claim 1, in which the high-frequency modulators, mixer and switching means are made in the form of a single module. 3. The system of claim 1, wherein the plurality of cable television channel decoder panels includes a cable television channel decoder main panel connected to a network via a transmission medium, and a plurality of cable television channel decoder subpanels, each of which is connected to a main channel of the channel decoder cable television. 4. The system according to claim 3, in which the main panel of the cable television channel decoder comprises a network interface device (SIU) connected to a transmission medium for interfacing with said network, said SIU being connected to subpanels of a cable television channel decoder, a first MPEG decoder for decoding the output signals of the SIU into the corresponding digital output signals, the first output audio and video sections for converting the digital output signals of the MPEG decoder into the corresponding audio and television signals, he first microprocessor coupled to CSC and MPEG decoder for controlling the full operation of the main panel of the decoder cable television channel, a first memory coupled to the microprocessor, and a subscriber interface connected to a microprocessor to establish a connection with the subscriber. 5. The system according to claim 4, in which the main panel of the cable TV channel decoder is paired with a subscriber for selectively controlling the output signals of the switching means. 6. The system of claim 4, wherein the network interface device further comprises a receiver and a transmitter, wherein the receiver is configured to demodulate signals received from said network using a carrier-phase-suppression amplitude-phase modulation (AFMN) method, and the transmitter is configured to modulation, using the method of quadrature phase shift keying (CPM), the "upstream" signal to be output to the aforementioned network via a transmission medium. 7. The system according to claim 5, in which the subpanel of the cable television channel decoder comprises a second MPEG decoder connected to said SIU of the main panel of the cable television channel decoder for decoding the output signals of said SIU into corresponding digital output signals, a second audio and video section for converting digital output the signals of the second MPEG decoder into the corresponding audio and video signals, the second microprocessor connected to the first microprocessor of the main panel of the cable body channel decoder full vision to control operation of sub-panels decoder cable television channels, and a second memory coupled to a second microprocessor. 8. The system according to claim 1, in which an optical fiber, a coaxial cable with twisted pairs, or air during satellite transmission acts as a data transmission medium.

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