CN102984038A - Transmission system of network data - Google Patents

Abstract

The invention provides a transmission system of network data. The transmission system of the data comprises a data transmission front end, a transmission network, an access network and a data receiving terminal. The data transmission front end comprises a convergence switch with a transceiver port being arranged to be used only for sending mandatorily, and the convergence switch is used for encoding and internet protocol (IP) packing of data such as audio and video and transmitting an IP data package out through the convergence switch in an IP broadcast mode or a multicast mode. The transmission network is used for transmitting the IP package in a rate of 1 Gigabyte (Gb) or more than 1 Gb in single and transparent modes. The access network comprises a first switch of a broadcast switch or a multicast switch, and the access network is used for acquiring the IP package from the transmission network through the first switch. The data receiving terminal is used for acquiring the IP package from the access network and unpacking and encoding for the IP package so that the data of the audio and the video can be displayed.

Description

Network data transmission system

Technical field

The present invention relates to communication technical field, relate in particular to a kind of network data transmission system.

Background technology

1, analog catv

The process that the development of analog catv network (its transmission means as shown in Figure 7) is wireless simulation transmission of television technology and wireless receiving technology moves on the cable network.By adopting adjacent frequently technology and additional channel technology, greatly improved transmission channel quantity.

Fig. 8 shows the schematic diagram of the wireless transmission of simulated television, the wireless transmission mechanism of simulated television is that modulator is modulated to the audio/video flow that will transmit on the channel carrier frequency of prior regulation, then transmitter with modulated carrier frequency to spatial emission, under the effect of antenna, transfer to TV (needing very strong transmitting power) in the space with electromagnetic form, TV is by the electromagnetic wave of antenna reception transmitting terminal, carry out demodulation by demodulator, reproduced image and sound accompaniment behind the frequency of selecting to see by tuner frequency-selecting function.

Fig. 9 shows the schematic diagram of the wire transmission of simulated television, the cable transport mechanism of simulated television is that modulator is modulated to the audio-video signal that will transmit on the channel carrier frequency of prior regulation, then transfer to television set (not needing very strong through-put power) by coaxial cable after having line amplifier that modulated signal is amplified, television set directly receives the high-frequency signal that coaxial cable transmits by tuner, and demodulate audio-video signal by demodulator, reproduced image and sound accompaniment behind the frequency of selecting to see by its frequency-selecting function.

The difference of simulated television wireless transmission and simulated television wire transmission is that transmission medium is different.

The common ground of simulated television wireless transmission and simulated television wire transmission is that transmission mechanism is identical, and transmitting terminal is modulated to the signal that will transmit on the carrier frequency and transmits, and receiving terminal carries out reappearing the signal that is transmitted after the demodulation.

Simulated television wireless transmission and simulated television wire transmission all must adopt modulation-demodulation technique (its basic principle is as shown in figure 10), this be because: broadcast mode transmission of analogue signal, analog signal do not have the identifier of oneself, only have by carrier frequency and identify.Demodulator at first finds the carrier frequency of being modulated by institute's signal transmission, demodulates the signal that transmits after carrier frequency is removed, so carrier frequency is the unique identification that finds institute's signal transmission.Simultaneously, no matter how the frequency of signal transmission and amplitude change, carrier frequency is single-frequency, so that the parameter of transmission circuit obtains unifiedly, improve efficiency of transmission, greatly improve antijamming capability.

The advantage of analog catv is: the one, owing to adopted adjacent frequency technology and additional channel technology, the channel quantity of transmission is increased; The 2nd owing to adopted wire transmission, establishment the reflex of space transmission, transmission quality is greatly improved.

The shortcoming of analog catv is: the one, owing to adopt modulation technique, affected by the spacing wireless channel, and physical channel number is much smaller than the planning channel number; The 2nd, adopt the analog-modulated technology, be difficult to the maintenance operation index; The 3rd, the charge poor controllability is difficult to guarantee service quality.

2, digital cable TV

The digital cable TV Internet Transmission be digital television signal.Figure 11 shows the schematic diagram of the transmission means of digital cable TV.As shown in figure 11, to digital television signal carry out compression coding multiplexing after, modulate rear line transmission through digital modulator.The user side television set does not possess the digital demodulation function, add set-top box and receive.

The advantage of digital cable TV is: the one, and still can utilize original analog network transmission, but originally can transmit in the bandwidth of a cover simulation TV programme, can transmit the digital TV programme of 6-8 covers; The 2nd, toll administration is controlled, is conducive to improve service quality; The 3rd, be conducive to network bi-directional, carry out more value-added service.

The shortcoming of digital cable TV is: still fail to break away from modulation-demodulation technique on the transmission means, thereby have following problem: the one, and affected by the spacing wireless channel, physical channel number is much smaller than the planning channel number; The 2nd, because the bandwidth of planning is 1000M, the later stage can't be satisfied bandwidth demand during to high definition or 3D Polarizations for Target Discrimination in Clutter; The 3rd, because radio network is unidirectional network, along with business development must be carried out the Two-way transformation, could realize carrying out of interactive service.

To sum up, the transmission of the broadcast television signal mode of registering one's residence has experienced the pattern from analogue radio transmissions, simulation wire transmission to the digital cable transmission.At present, no matter be analogue radio transmissions, simulation wire transmission or Digital Television wire transmission, transmission mechanism adopt all be to be modulated to tv baseband signal on the carrier frequency after the mode of broadcasting transmitting again.

3, the cable TV network Two-way is transformed

Along with the development of digital cable TV, the transmission bandwidth of cable TV network, network bi-directional change into the new problem that faces for us.

1), EPON(Ethernet Passive Optical Network, ethernet passive optical network)+LAN(Local Area Network, local area network (LAN)) mode

The condition that realizes: Fiber-To-The-Building head or optical fiber are to the unit, and its networking logic as shown in figure 12.

The mode that realizes: two-wire is registered one's residence, and namely coaxial line and category-5 cable are registered one's residence simultaneously.

The advantage of this mode: the one, need not change under the prerequisite that original Coaxial Network quality satisfies; The 2nd, broadcasting and TV have been built again a carrier-class data network on the basis that legacy network keeps; The 3rd, standard is unified, satisfies NGB(Next Generation Broadcasting Network fully, Next generation broadcasting network) technical standard.

The shortcoming of this mode: the one, because on the basis of former network, built again a carrier-class data network, strengthen cost and the difficulty of network bi-directional transformation; The 2nd, strengthen maintenance cost, safeguard that two throw the net.

2), EPON+EOC(Ethernet over Coax, Ethernet on the coaxial cable) mode

The condition that realizes: Fiber-To-The-Building head or optical fiber are to the unit, and its networking logic as shown in figure 13.

The mode that realizes: utilize data modulation technique or data Baseband Transmission Technology can utilize original coaxial line to finish the Two-way transformation.

The advantage of this mode: the one, register one's residence and still utilize the original coaxial line of broadcasting and TV, reduce the difficulty of construction that net changes; The 2nd, it is low that net changes the covering cost.

The shortcoming of this mode is: the standard disunity, the bandwidth of registering one's residence is low, when proposing bandwidth demand such as the standard of registering one's residence by category-5 cable, covers cost and the cost sharp increase of registering one's residence.

3), CMTS(Cable Modem Terminal Systems, Cable Modem Terminal System) mode, be HFC(Hybrid Fiber-Coax, hybrid fiber/ coax, HFC) network mode

The condition that realizes: Fiber-To-The-Building head or FTTC, its networking logic as shown in figure 14.

The mode that realizes: utilize data modulation technique can utilize original coaxial line to finish the Two-way transformation.

The advantage of this mode: the one, register one's residence and still utilize the original coaxial line of broadcasting and TV, reduce the difficulty of construction that net changes; The 2nd, it is low that net changes the covering cost; The 3rd, standard is unified.

The shortcoming of this mode is: the bandwidth of registering one's residence is low, when proposing bandwidth demand such as the standard of registering one's residence by category-5 cable, covers cost and the cost sharp increase of registering one's residence.

4, broadcasting and TV fiber entering household

Along with the development of digital cable TV, the fiber entering household of cable TV network also becomes the new problem that we face.

1), the mixing of radio network and data network is registered one's residence

Implementation: with digital TV broadcast signal and VOD(Video Order Display, video request program) program request plug-flow signal is through QAM(Quadrature Amplitude Modulation, quadrature amplitude modulation) and after the IPQAM modulation, carry out again light modulation to the 1550nm wavelength, and through after being amplified to certain luminous power, PON OLT(Optical Line Terminal with the data transmission, optical line terminal) register one's residence by the light passive mode after for example 1490/1310nm wavelength of output closes ripple, its networking logic as shown in figure 15.

End product: can utilize existing product, for example existing set-top box, optical receiver (small-power enters house type), ONU(Optical Network Unit, optical network unit) adding independent light channel-splitting filter etc. solves.Also available integration product, namely integrated set-top box, optical receiver (small-power enters house type), ONU, optical branching filter.

The advantage of this mode is to take full advantage of the standard a nd norm of original technical system, easily realization.

The shortcoming of this mode is, although realized fiber entering household, still fails to break away from modulation-demodulation technique on the A platform transmission means, thereby has following problem: the one, and affected by the spacing wireless channel, physical channel number is much smaller than the planning channel number; The 2nd, because the bandwidth of planning is 1000M, the later stage can't be satisfied bandwidth demand during to high definition or 3D Polarizations for Target Discrimination in Clutter.

2), adopt the IPTV technology to register one's residence fully

Implementation: after digital TV broadcast signal and VOD program request plug-flow signal broken into the IP bag, together transmit by PONOLT with other IP data-signals.Wherein digital TV broadcast signal transmits in IP group ripple mode, and VOD program request plug-flow signal is with the transmission of IP point broadcast mode, and its networking logic as shown in figure 16.

End product: can utilize existing product, such as existing IP set-top box, ONU etc. solved.Also can utilize integration product, namely integrated IP set-top box, ONU.

The advantage of this mode: the one, take full advantage of the standard a nd norm that has the IP technical system now, realize easily; The 2nd, break away from traditional modulation-demodulation technique, there is not the maintenance issues of frequency interference and radio-frequency (RF) index.

The shortcoming of this mode is that because cancelled modulation-demodulation technique, same decrement and lower transmission one programs bandwidth increase 4--5 doubly, increase the bandwidth pressure (during a multiplex stream 38M, only needing the 8M transmission bandwidth after the QAM modulation) of IP metropolitan area network.

In sum, be necessary to research and develop a kind of new broadcasting and TV fiber entering household technology, can bring into play the advantage of former radio network, can merge fully with the IP technology again.

Summary of the invention

The problem that invention will solve

As mentioned above, the present invention is intended to provide a kind of new network data transmission system, and it can be brought into play the advantage of former radio network, can merge fully with the IP technology again, thus the perfect broadcasting and TV fiber entering household difficult problem that solves.

For the scheme of dealing with problems

To achieve these goals, according to embodiments of the invention, a kind of network data transmission system is provided, comprise: data send front end, comprise that transmitting-receiving mouth is forced to be arranged to the convergence switch of only sending out, be used for to the data such as audio frequency and video etc. encode, the IP packing, and the IP packet transferred out via the form of described convergence switch with broadcasting or multicast; Transmission network is used for transmitting described IP packet with 1Gb or above speed one-way transparent; Access Network is included as first switch of broadcasting switch or multicast switch, is used for obtaining described IP packet via described the first switch from described transmission network; And data receiving terminal, be used for obtaining described IP packet from described Access Network, the IP packet is unpacked, decodes, thereby play described audio, video data.

The effect of invention

The characteristics of the network data transmission system that the embodiment of the invention provides are to adopt fully IP broadcast or multicast, are passive optical-fiber network from front end all to registering one's residence, and fully phase out modulation-demodulation technique.By adopting IP broadcast or multicasting technology that audio, video data is broken into the IP packet, send front end from data and adopt the passive fiber networking fully to data receiving terminal, greatly improved the network operation stability of data receiving terminal.On the other hand, owing to cancelled modulation /demodulation equipment, noise and the nonlinear distortion of having avoided modulation /demodulation equipment to bring have also been avoided the space interference problem, no longer have the frequency restriction, and the bandwidth of radio network can be expanded to 10G, 20G by 1G.

Description of drawings

The networking logic diagram of the network data transmission system that provides according to the embodiment of the invention is provided Fig. 1;

The network data transmission system that Fig. 2 provides according to the embodiment of the invention for employing is realized the block diagram of IP broadcast or multicast fiber entering household solution;

The block diagram of front end is provided for the data in the network data transmission system that provides according to one embodiment of the invention Fig. 3;

The block diagram of front end is provided for the data in the network data transmission system that provides according to another embodiment of the present invention Fig. 4;

The block diagram of the data receiving terminal in the network data transmission system that provides according to one embodiment of the invention is provided Fig. 5;

The block diagram of the data receiving terminal in the network data transmission system that provides according to another embodiment of the present invention is provided Fig. 6;

Fig. 7 is the transmission schematic diagram of analog catv in the prior art;

Fig. 8 is the schematic diagram of the wireless transmission of simulated television in the prior art;

Fig. 9 is the schematic diagram of the wire transmission of simulated television in the prior art;

Figure 10 is the schematic diagram of modulation-demodulation technique in the prior art;

Figure 11 is the transmission schematic diagram of digital cable TV in the prior art;

Figure 12 be in the prior art EPON+LAN mode realize the transformation of cable TV network Two-way take the light station to building head ONU to the unit networking logic diagram as example;

Figure 13 is the networking logic diagram take the light station to the building head as example that the EPON+EOC mode realizes the transformation of cable TV network Two-way in the prior art;

Figure 14 is the networking logic diagram take the light station to the building head as example that CMTS mode (hfc plant) realizes the transformation of cable TV network Two-way in the prior art;

Figure 15 is for adopting radio network and data network to mix the networking logic diagram that the mode of registering one's residence realizes the broadcasting and TV fiber entering household;

Figure 16 is for adopting the IPTV technology to realize the networking logic diagram of broadcasting and TV fiber entering household;

Figure 17 is the networking logic diagram of cable tv broadcast net; And

Figure 18 is the networking logic diagram of IPTV multicast network.

Embodiment

As mentioned above, the present invention is intended to provide a kind of new network data transmission system, and it can be brought into play the advantage of former radio network, can merge fully with the IP technology again.The below is with the difference of paper radio network and IP network.

Figure 17 shows the networking logic diagram of cable tv broadcast net.As can be seen from Figure 17, the bandwidth of initiator, transmission network bandwidth, the bandwidth of registering one's residence are identical, and the bandwidth of initiator and transmission network bandwidth do not increase with user's increase.That is to say that all users under initiator share bandwidth and the transmission network bandwidth of initiator.

Figure 18 shows the networking logic diagram of IP network.As can be seen from Figure 18, the bandwidth of initiator is identical with the transmission network bandwidth, but not identical with the bandwidth of registering one's residence, and the bandwidth of initiator and transmission network bandwidth increase with user's increase.

This shows that the advantage of radio network is: radio network is to share the band wide screen, and the establishing of MAN cost is low.The shortcoming of radio network is: radio network is unidirectional network, does not possess the interactive service function, needs the Two-way transformation could satisfy multiple interactive service.

On the other hand, the advantage of IP network is: IP network is Two-way Network, can support multiple interactive service.The shortcoming of IP network is: when IP network was carried out cable television service, the construction cost of metropolitan area network was risen sharply.As transmit the HDTV (High-Definition Television) signal, and the transmission bandwidth of every programs is pressed 10M calculate, the IP network copy-point of a 100G can only provide 8000 concurrent streams.The copy-point that 100G MAN transmission network and 125 100G then need be built in the city at 100 general-purpose families could satisfy the demand that each user watches simultaneously, and its construction cost is higher.

In view of this, the basic ideas of the network data transmission system that provides according to the embodiment of the invention are: take full advantage of the advantage that the radio network huge numbers of families share broadcast bandwidth, cancel the modulation-demodulation technique that affects bandwidth demand in the present CHINA RFTCOM Co Ltd, adopt IP broadcast or the multicast mode of audio/video flow to substitute the pattern of broadcasting again after the audio/video flow modulation, all adopt IP broadcast or the multicasts of realizing audio/video flow at the passive fiber networking from front end to registering one's residence.This solution can extremely be easy to solve cable network transmission bandwidth, network bi-directional, realize the difficult problem of CHINA RFTCOM Co Ltd fiber entering household.

The networking logic diagram of the network data transmission system that provides according to the embodiment of the invention is provided Fig. 1.The block diagram that utilizes the network data transmission system that provides according to the embodiment of the invention to realize the broadcasting and TV fiber entering household is provided Fig. 2.As shown in Figure 1 and Figure 2, the key of this system is to adopt fully IP broadcast or multicasting technology, is the passive fiber networking from front end all to registering one's residence, and fully phases out modulation-demodulation technique.

Particularly, the network data transmission system that provides according to the embodiment of the invention comprises: data send front end, comprise that transmitting-receiving mouth is forced to be arranged to the convergence switch of only sending out, be used for to the data such as audio frequency and video etc. encode, the IP packing, and data are exported via convergence switch with the form of IP packet; Transmission network is used for 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed one-way transparent transmission of IP data bag; Access Network is included as first switch of broadcasting switch or multicast switch, is used for obtaining the IP packet via the first switch from transmission network; And data receiving terminal, be used for obtaining the IP packet from Access Network, the IP packet is unpacked, decodes, thus playing audio-video data.Wherein, preferably, described IP packet is to pass through for example audio, video data bag of 1550nm wavelength one-way transmission with 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed.

For above-mentioned network data transmission system, transmission network is preferably the cable tv broadcast net, is TS flow data or ASI flow data such as the data optimization of audio frequency and video etc.In other words, the cable tv broadcast end is realized IPization and IP broadcast or multicast.Fully phase out modulation-demodulation technique, the stream of the cable TV TS after code multiplexing scrambling signal is carried out the IP packing, and utilize IP broadcast or multicasting technology to broadcast.

Tool is sayed it, and the block diagram that data in the network data transmission system that provides according to one embodiment of the invention send front end is provided Fig. 3, wherein adopted to data encode, multiplexing, mode that scrambling is processed.The block diagram of the data transmission front end in the network data transmission system that provides according to another embodiment of the present invention is provided Fig. 4, has wherein cancelled multiplexer with shown in Figure 3 comparing.In addition, process for the data encryption that data send in the front end, can adopt arbitrarily known encryption technology, for example CA encrypts or the DRM technology.For IP broadcast or multicast, adopt the DRM technological merit higher.

Adopt IP broadcast or the multicast mode of audio and video data streams.At first audio and video data streams is broken into the IP bag, utilize for example udp protocol of the static broadcast technology of IP, can realize real IP streaming, but the precondition that must satisfy is: the one, enough bandwidth of registering one's residence must be arranged, this is with radio network transmitting terminal bandwidth is equal large the same with the end bandwidth of registering one's residence now, and this condition can solve by fiber entering household; The 2nd, terminal has enough disposal abilities, and this is equivalent to tuner and the demodulator of present radio network, can select frequency and the channel that you want in the frequency that broadcasting comes, and this condition is now along with 10,000,000,000 process chip commercializations also can be resolved.So IP broadcast or multicast can be realized under the fiber entering household condition.

This scheme has been because cancelled modulation-demodulation technique, thus there is not the frequency concept, thus overcome the space interference problem.But need larger Access Network bandwidth.Such as the SD program of the 6M code check that adopts at present the MPEG-2 compression, through can transmitting 6 programs after the QAM modulation in the 8M bandwidth, but the IP mode is transmitted then and need be taken the 36M transmission bandwidth.But, if adopt support 1Gb or the optical module of above (for example 2.125Gb, 2.5Gb or 10Gb) speed and the process chip of support 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed of present technology maturation, utilize simultaneously and adopt for example 1550nm wavelength broadcasting on the naked fibre of Access Network, the Access Network bandwidth is not subject matter just.

The advantage of this scheme is to adopt IP broadcast or multicasting technology fully, all is the passive fiber networking from front end to registering one's residence, and has greatly improved the operation stability of Access Network.Simultaneously, owing to cancelled modulation /demodulation equipment, noise and the nonlinear distortion brought because of modulation /demodulation equipment have been fully phased out.Owing to cancelled modulation-demodulation technique, the Existential Space interference problem has not had the frequency restriction yet, and along with optical module and process chip are constantly upgraded, the radio network bandwidth can be from present 1G bandwidth to 10G, 20G, the 40G expansion.

In addition, consider data service, adopt as shown in Figure 1 three wavelength transmission mechanism in the above-mentioned network data transmission system net, for example 1550nm wavelength transmission cable TV IP broadcast or multicast, for example other data service of 1490nm/1310nm wavelength transmission.Thereby the broadcasting audio, video data is to pass through for example IP traffic of 1550nm wavelength one-way transmission with for example 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed, and close ripple via wave multiplexer with the bi-directional transfer of data of for example 1310nm/1490nm wavelength of PON system and transmit at an optical fiber, wherein the PON system includes but not limited to EPON, GPON or 10G EPON system.

Tool is sayed it, and as shown in Figure 2, transmission network also preferably is connected with the VOD(video request program via router) platform, ISP the Internet and soft switch VoIP platform are one of at least.Correspondingly, Access Network also comprises optical multiplexer, is the second switch, router, the OLT(optical line terminal of broadcasting switch or multicast switch) and/or VOD divide platform, thus so that: obtain from transmission network, from the data of ISP the Internet and/or soft switch VoIP platform successively via router, the second switch, OLT and optical multiplexer input data receiving terminal; Obtain from transmission network, divide platform, OLT and optical multiplexer input data receiving terminal via router, the second switch, VOD successively from the data of VOD platform; And obtain from transmission network, send the data of front end successively via the first switch and optical multiplexer input data receiving terminal from data.

This shows, because having realized on the same optical fiber can either be with the broadcasting audio, video data of the one-way transmission IP data packet form of 1Gb or above speed (for example 2.125Gb, 2.5Gb or 10Gb), transmitted in both directions PON system data in a conventional manner again, the network data transmission system that provides according to the embodiment of the invention also efficiently solves the problem of telecommunications, the Internet and the Broadcasting Cable Network integration of three networks.

In addition, for data receiving terminal, it is connected to Access Network via an optical fiber, and the PON system data of transmitted in both directions and coexist with the broadcasting audio, video data of the IP data packet form of 1Gb or above speed (for example 2.125Gb, 2.5Gb or 10Gb) one-way transmission transmits on this root optical fiber.Thus so that, data receiving terminal comprises at least optical branching filter, PON optical module, PON processing module, supports light-receiving and processing module and the network exchange module of 1Gb or above speed (for example 2.125Gb, 2.5Gb or 10Gb).Wherein, optical branching filter is in order to separating with other business datum via IP broadcast or the multicast audio, video data of an optical fiber input, the PON optical module is in order to receive and dispatch other business datum, support the light-receiving of 1Gb or above speed (for example 2.125Gb, 2.5Gb or 10Gb) and processing module in order to receiving IP broadcast or multicast audio, video data, and network exchange module is in order to branch to suitable data-interface according to type of service with IP broadcast or multicast audio, video data and other business datum.On the other hand, data receiving terminal can adopt the mode of master terminal and secondary terminal to realize, also can adopt the mode of standardization transmission terminal and application terminal to realize.

Tool is sayed it, the block diagram of the data receiving terminal in the network data transmission system that provides according to one embodiment of the invention is provided Fig. 5, wherein adopted the mode of master terminal and secondary terminal, and secondary terminal can be selected dual mode, be the secondary terminal of category-5 cable interconnection system (can directly use existing commercially available category-5 cable IP set-top box) and the secondary terminal of wireless connections formula (can directly use and have commercially available WIFI IP set-top box now).The block diagram of the data receiving terminal in the network data transmission system that provides according to another embodiment of the present invention is provided Fig. 6, wherein adopted the mode of standardization transmission terminal and application terminal, and dual mode can be selected in the application terminal, be category-5 cable interconnection system application terminal and wireless connections formula application terminal.

In addition, in order to reduce the cost of data receiving terminal product, proposed Unidirectional light module scheme and customized IP Unidirectional light module.Tool is sayed it, in data receiving terminal, the optical module that is used for the IP packet of input optical signal form is preferably 10Gb light-receiving and the processing module shown in optical module, for example Fig. 5 and Fig. 6 of the unidirectional receipts of supporting 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed, thereby saves the cost of half with the optical module phase specific energy of the current bidirectional transmit-receive that generally uses.Further preferably, send front end in data, be used for take the optical module of the described IP packet of the light signal formal output optical module as unidirectional, wherein said IP packet be to pass through for example audio, video data bag of 1550nm wavelength one-way transmission with 1Gb or above (for example 2.125Gb, 2.5Gb or 10Gb) speed.

The above; be the specific embodiment of the present invention only, but protection scope of the present invention is not limited to this, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (6)

1. network data transmission system comprises:

Data send front end, comprise that the transmitting-receiving mouth is forced to be arranged to the convergence switch of only sending out, for audio, video data is encoded, IP packs, and the IP packet exported via described convergence switch with the form of IP broadcast or multicast;

Transmission network is used for transmitting described IP packet with 1Gb or above speed one-way transparent;

Access Network comprises the first switch, is used for obtaining described IP packet via described the first switch from described transmission network; And

Data receiving terminal is used for obtaining described IP packet from described Access Network, the IP packet is unpacked, decodes, thereby play described audio, video data.

2. network data transmission system according to claim 1 is characterized in that,

Described transmission network also is connected with video request program platform, ISP the Internet and soft switch VoIP platform one of at least via router;

Described Access Network comprises that also optical multiplexer, the second switch, router, optical line terminal and/or video request program divide platform;

Obtain from described transmission network, input described data receiving terminal via described router, described the second switch, described optical line terminal and described optical multiplexer successively from the data of described ISP the Internet and/or described soft switch VoIP platform;

Obtain from described transmission network, divide platform, described optical line terminal and described optical multiplexer to input described data receiving terminal via described router, described the second switch, described video request program successively from the data of described video request program platform; And

The data that obtain from described transmission network, send front end from described data are inputted described data receiving terminal via described the first switch and described optical multiplexer successively.

3. network data transmission system according to claim 2, it is characterized in that described data receiving terminal comprises at least optical branching filter, PON optical module, PON processing module, supports light-receiving and processing module and the network exchange module of 1Gb or above speed.

4. each described network data transmission system in 3 according to claim 1 is characterized in that described transmission network is the cable tv broadcast net.

5. each described network data transmission system in 3 according to claim 1 is characterized in that described the first switch is broadcasting switch or multicast switch.

6. according to claim 2 or 3 described network data transmission systems, it is characterized in that described the second switch is broadcasting switch or multicast switch.

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