Video-on-demand services using public switched telephone network

Claims

We claim:

1. A central office based public switched telephone network for supplying video information from a digital information storage medium to designated subscriber premises, comprising:

a telephone company central office receiving video information signals from a video information server and subscriber orders from a prescribed subscriber, said central office including a video gateway for providing routing data in response to subscriber orders and a switch for routing video information signals from said server to the prescribed subscriber in accordance with said routing data;

a central office interface for transmitting or receiving audio telephone service signals, subscriber control signals and digital information signals on, respectively, first, second and third signal channels;

each said subscriber premises including a subscriber interface for transmitting or receiving audio telephone service signals, subscriber control signals and digital multimedia

information signals on, respectively, the first, second and third signal channels; and

a plurality of subscriber local loops interconnecting corresponding subscriber and central office interfaces.

2. A switched network for providing digital video signals from a video information provider to any one of a plurality of subscriber premises, comprising:

an exchange receiving digital video signals from a video information service provider and subscriber orders from one or more of the subscribers, said exchange including a video gateway for providing video routing data in response to the subscriber orders and a switch for routing selected digital video signals to subscriber premises in accordance with said routing data;

for each of the subscriber premises, a first multiplexer/demultiplexer coupled to the exchange, a second multiplexer/demultiplexer at the subscriber's premises and a subscriber local loop interconnecting the first multiplexer/demultiplexer and the second multiplexer/demultiplexer, wherein

each said first multiplexer/demultiplexer transmits or receives audio telephone service signals over the subscriber local loop, receives subscriber control signals over the subscriber local loop and transmits selected digital video signals from the switch over the subscriber local loop in first, second and third signal channels respectively which are independent of each other, and

each second multiplexer/demultiplexer transmits or receives audio telephone service signals over the subscriber local loop, transmits subscriber control signals over the subscriber local loop and receives selected digital video signals over the subscriber local loop in said first, second and third signal channels.

3. The network of claim 2, wherein said first channel is a bidirectional channel carrying said audio telephone service signals between the subscriber and the exchange, said second channel is a unidirectional channel carrying subscriber control signals to said exchange, and said third channel is a unidirectional channel carrying digital video signals from said exchange to the subscriber.

4. The network of claim 3, wherein said first, second and third channels occupy progressively increasing frequency bands on the subscriber local loop, with the first channel occupying the lowest.

5. The network of claim 4, wherein said first, second and third channels are non-overlapping.

6. The network of claim 3, wherein the third channel has a bandwidth substantially wider than do the first and second channels.

7. The network of claim 2, wherein said second multiplexer/demultiplexer includes a splitter for supplying telephone service signals and video signals from the exchange to telephone and television terminals.

8. The network of claim 2, wherein said subscriber local loops comprise wire pairs.

9. The network of claim 2, wherein said subscriber local loops comprise coaxial cables.

10. The network of claim 2, wherein said subscriber local loops comprise optical fibers.

11. The network of claim 2, further comprising, for each subscriber, a decoder coupled to the second multiplexer/demultiplexer for converting an incoming digital video signal to an analog video output signal.

12. The network of claim 11, wherein said digital video signals comprise compressed digital data signals, and said decoder includes a decompressor for decompressing an incoming video digital data signal and producing analog video and associated audio output signals.

13. The network of claim 2, wherein said exchange further includes a packet data network responsive to said video gateway for supplying command signals to said video information provider.

14. The network of claim 2, including video storage means remote from the subscriber premises for buffering video data obtained from said switch and supplying buffered video data to a prescribed first multiplexer/demultiplexer.

15. The network of claim 14, wherein said first multiplexer/demultiplexer includes a control link output node for supplying said subscriber control signals to said video storage means.

16. The network of claim 2, wherein said video gateway comprises a memory storing subscriber access data, and said gateway is responsive to subscriber identification information and said stored access data to supply video scheduling data to said video information provider.

17. The network of claim 2, including a voice switch responsive to telephone number data transmitted from one of the first multiplexer/demultiplexers for establishing an audio connection from the local loop of a prescribed subscriber to the video gateway.

18. The network of claim 17, wherein said voice switch further supplies caller identification information to said video gateway that, in turn, supplies network address information to said switch for directing video data from the video information provider to said one of the first multiplexer/demultiplexers.

19. The network of claim 2, including voice response means for supplying to said switch a voice reply to order data received from a prescribed subscriber premises.

20. The network of claim 2, wherein said video gateway also provides video scheduling data in response to the subscriber orders and said switch routes selected digital video signals from the information service provider to subscriber premises in accordance with said scheduling data.

21. The network of claim 2, wherein said first multiplexer/demultiplexers include error correcting means for correcting errors received thereby over said subscriber local loops.

22. The network of claim 2, wherein said first and second multiplexer/demultiplexers perform frequency domain multiplexing and demultiplexing.

23. The network of claim 22, wherein said first and second multiplexer/demultiplexers also perform at least some time division multiplexing and demultiplexing.

24. The network of claim 22, wherein said first and second multiplexer/demultiplexers perform at least some time division multiplexing and demultiplexing.

25. A switched network for providing compressed video signals from a video information provider to any one of a plurality of subscriber premises, comprising:

an exchange receiving compressed video signals from a video information service provider and subscriber orders from one or more of the subscribers, said exchange including a video gateway for providing video routing data in response to the subscriber orders and a switch for routing selected compressed video signals to subscriber premises in accordance with said routing data;

for each of the subscriber premises, a first multiplexer/demultiplexer coupled to the exchange, a second multiplexer/demultiplexer at the subscriber's premises and a subscriber local loop interconnecting the first multiplexer/demultiplexer and the second multiplexer/demultiplexer, wherein

each said first multiplexer/demultiplexer transmits or receives audio telephone service signals over the subscriber local loop, receives subscriber control signals over the subscriber local loop and transmits selected compressed video signals from the switch over the subscriber local loop in first, second and third signal channels respectively which are independent of each other, and

each second multiplexer/demultiplexer transmits or receives audio telephone service signals over the subscriber local loop, transmits subscriber control signals over the subscriber local loop and receives selected compressed video signals over the subscriber local loop in said first, second and third signal channels.

26. The network of claim 25, wherein said compressed video signals comprise compressed digital data signals.

27. The network of claim 26, further comprising, for each subscriber, a decoder coupled to the second multiplexer/demultiplexer for converting an incoming digital video signal to an analog video output signal.

28. The network of claim 27, wherein said decoder includes a decompressor for decompressing an incoming compressed digital video data signal and producing analog video and associated audio output signals.

29. The network of claim 25, further comprising, for each subscriber, a decompressor coupled to the second multiplexer/demultiplexer, wherein said decompressor decompresses an incoming compressed video signal and produces video and associated audio output signals.

30. The network of claim 25, wherein said first channel is a bidirectional channel carrying said audio telephone service signals between the subscriber and the exchange, said second channel is a unidirectional channel carrying subscriber control signals to said exchange, and said third channel is a unidirectional channel carrying digital video signals from said exchange to the subscriber.

31. The network of claim 30, wherein said first, second and third channels occupy progressively increasing frequency bands on the subscriber local loop, with the first channel occupying the lowest.

32. The network of claim 31, wherein said first, second and third channels are non-overlapping.

33. The network of claim 30, wherein the third channel has a bandwidth substantially wider than do the first and second channels.

34. The network of claim 25, wherein said video gateway comprises a memory storing subscriber access data, and further wherein said gateway is responsive to subscriber identification information and said stored access data to supply video scheduling data to said video information provider.

35. The network of claim 25, said first and second multiplexer/demultiplexers perform frequency domain multiplexing and demultiplexing.

36. The network of claim 35, said first and second multiplexer/demultiplexers also perform at least some time division multiplexing and demultiplexing.

37. The network of claim 25, said first and second multiplexer/demultiplexers perform at least some time division multiplexing and demultiplexing.

38. A switched network for selectively providing voice telephone service, selectively combined with video signals from a video information provider to a plurality of subscriber premises, comprising:

a plurality of subscriber multiplexers/demultiplexers located at respective ones of said subscriber premises, each including

(i) a local loop input node for receiving a composite signal,

(ii) a splitter receiving said composite signal and supplying separate video output and subscriber telephone instrument signals, and

(iii) separate output nodes for said video output and subscriber telephone instrument signals;

a plurality of subscriber local loops providing communications connectivity from a respective one of said subscriber multiplexers/demultiplexers to a respective subscriber loop node;

a plurality of network multiplexers/demultiplexers, each including

(i) subscriber video input node for receiving a video signal and a subscriber telephone instrument node for receiving a telephone instrument signal,

(ii) a combiner receiving said video signal and said subscriber telephone instrument signal to supply a composite signal, and

(iii) a local loop output node for supplying said composite signal to a respective one of said subscriber loop nodes;

a voice switch receiving telephone instrument signals from said telephone instrument nodes and responsive to telephone number data transmitted by said telephone instrument signal for providing audio signal connectivity between subscriber telephone local loops,

a video scheduling unit responsive to a control signal receiving from a subscriber premise for providing video request data to said video information provider; and

a cross-connect switching system receiving video data from said video information provider and responsive to said video request data for supplying said video data to selected ones of said network multiplexers/demultiplexers,

wherein each subscriber multiplexer/demultiplexer further includes a node for receiving subscriber control signals and transmits said subscriber control signals over the subscriber local loop, and each network multiplexer/demultiplexer includes means for supplying said subscriber control signals to said video scheduling unit, and

wherein said subscriber local loops carry said video signal, said telephone instrument signals and said control signals in first, second and third signal channels respectively which are independent of each other.

39. The network of claim 38, wherein said subscriber local loops carry said video signal in a broadband channel and carry said telephone instrument signals in a narrowband channel.

40. A switched network for providing digital video signals from a video information provider to any one of a plurality of subscriber premises, comprising:

network equipment receiving digital video signals from a video information provider and subscriber orders from a prescribed subscriber, said network equipment including a video gateway for providing routing data in response to subscriber orders, a data network responsive to said video gateway for supplying command signals to said video information provider, a network management system and a digital cross-connect switch controlled by said network management system and said data network for routing video signals from said video information provider to the prescribed subscriber in accordance with said routing data;

a network interface including, for each subscriber, a first multiplexer/demultiplexer for transmitting or receiving digital video signals on a first, unidirectional signal channel and subscriber control signals on a second signal channel;

each said subscriber premises including an interface including a second multiplexer/demultiplexer for transmitting or receiving digital video signals and control video signals on, respectively, the first and second signal channels;

a plurality of subscriber local loops interconnecting corresponding network and subscriber interfaces;

said network equipment further including a switch responsive to order data transmitted from said subscriber premises for transmitting said order data from the prescribed subscriber to the video gateway that, in turn, supplies network address information to said cross-connect switch for directing video data from the video information provider to a prescribed network interface;

a voice switch; and

means for carrying voice communications between said voice switch and telephone equipment in each said subscriber premises, wherein said means for carrying voice communication comprises a third channel, said third channel being on said subscriber local loops.

41. The network of claim 40, wherein said subscriber local loops carry said video signal, said control signals and voice telephone signals in first, second and third signal channels respectively which are independent of each other.

42. The network of claim 41, wherein said first channel has a bandwidth substantially larger than do said second channel and said third channel.

43. The network of claim 40, wherein said subscriber control signals include command signals to selectively specify pause, rewind, and fast forwarding of a selected video program, said network further comprising means responsive to such command signals to control transmission of video signals to simulate pause, rewind and fast forwarding functions.