Multiple subscriber video-on-demand system
First Claim
1. A multiple subscriber video-on-demand system comprising:
- (a) video server means which is individually addressable to begin to provide subscriber selected programming to a video head end;
(b) said video head end having(i) at least one modulator means for modulating video signals provided by said video server means; and
(ii) frequency shifting means associated with each of said at least one modulator means and receiving a video signal output therefrom;
(iii) combiner means for receiving a shifted video signal output from each of said frequency shifting means and combining them into a combined video output for transmission over a single transmission path;
(c) a head end IP tap which receives said combined video output of said combiner means, and passes said combined video output to a splitter having a single input and an output for each subscriber;
(d) an IP addressable video switch at each subscriber location which receives said combined video output from said splitter and transmits requests for programming to a network server through said splitter and said head end IP tap, each said IP addressable video switch further comprising means for frequency shifting said combined video output from said splitter;
(e) said network server being connected to said head end IP tap and to said video server means by means of dedicated network connections, said network server being able to communicate with each said IP addressable video switch through said head end IP tap, said network server controlling said means for frequency shifting in IP addressable video switches and controlling said frequency shifting means in said video head end;
whereby said network server can control both said video server means and said IP addressable video switches, such that a subscriber can communicate to said network server the requests for video programming, and said network server can command said video server means to begin transmission of such programming and said network server can coordinate both the transmission of said programming over said video head end, and the reception of said programming at one of said IP addressable video switches so that the request can be fulfilled.
3 Assignments
0 Petitions
Accused Products
Abstract
A system which makes use of existing coax wiring to provide video-on-demand to individual subscribers. IP addressable, bi-directional video switches are used to replace traditional set-top cable boxes. The video switches are controlled by a network server which communicates with them over the existing coax wiring by using one of the frequencies previously used to transmit a VHF channel. The network server also controls video servers and a video head end, and it interfaces with the coax by means of a head end IP tap. Consequently, the network server can receive the subscriber'"'"'s request for particular video programming, and it can order a video server to provide such programming to the subscriber, coordinating the programming, any desired frequency shifting, and the selection of the frequency on which the programming should be transmitted by the video head end and received by the subscriber'"'"'s video switch.
118 Citations
7 Claims
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1. A multiple subscriber video-on-demand system comprising:
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(a) video server means which is individually addressable to begin to provide subscriber selected programming to a video head end; (b) said video head end having (i) at least one modulator means for modulating video signals provided by said video server means; and (ii) frequency shifting means associated with each of said at least one modulator means and receiving a video signal output therefrom; (iii) combiner means for receiving a shifted video signal output from each of said frequency shifting means and combining them into a combined video output for transmission over a single transmission path; (c) a head end IP tap which receives said combined video output of said combiner means, and passes said combined video output to a splitter having a single input and an output for each subscriber; (d) an IP addressable video switch at each subscriber location which receives said combined video output from said splitter and transmits requests for programming to a network server through said splitter and said head end IP tap, each said IP addressable video switch further comprising means for frequency shifting said combined video output from said splitter; (e) said network server being connected to said head end IP tap and to said video server means by means of dedicated network connections, said network server being able to communicate with each said IP addressable video switch through said head end IP tap, said network server controlling said means for frequency shifting in IP addressable video switches and controlling said frequency shifting means in said video head end; whereby said network server can control both said video server means and said IP addressable video switches, such that a subscriber can communicate to said network server the requests for video programming, and said network server can command said video server means to begin transmission of such programming and said network server can coordinate both the transmission of said programming over said video head end, and the reception of said programming at one of said IP addressable video switches so that the request can be fulfilled. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification