SERIAL NETWORKING FIBER-TO-THE-SEAT INFLIGHT ENTERTAINMENT SYSTEM
11 Assignments
0 Petitions
Accused Products
Abstract
An entertainment system that has improved failure recovery characteristics and reduces the connection components is disclosed. In one aspect, an inflight entertainment system comprises a plurality of physically interconnected head end line replaceable units and a plurality of serially-connected networking line replaceable units physically interconnected in a serial configuration, wherein two of the serially-connected networking line replaceable units at the edge of the serial configuration are physically interconnected with two of the head end line replaceable units, respectively, wherein a loop-free head end data path is maintained between active head end line replaceable units by regulating link participation in the head end data path, and wherein one or more loop-free serially-connected networking data paths are maintained between at least one of the two head end line replaceable units and active serially-connected networking line replaceable units by regulating link participation in the serially-connected networking data paths.
10 Citations
51 Claims
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1-31. -31. (canceled)
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32. An inflight entertainment system comprising:
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a first head end line replaceable unit (HE-LRU); a second HE-LRU; a third HE-LRU; the first, second, and third HE-LRUs each comprising; a first fiber optic transceiver; a second fiber optic transceiver; and a processor communicatively coupled with the first and second fiber optic transceivers; the first, second, and third HE-LRUs configured to communicate via a head-end data-path comprising; a first link connecting the first fiber optic transceiver of the first HE-LRU with the second fiber optic transceiver of the second LRU; a second link connecting the second fiber optic transceiver of the first HE-LRU with the first fiber optic transceiver of the third LRU; and a third link connecting the first fiber optic transceiver of the second HE-LRU with the second fiber optic transceiver of the third LRU; wherein, in response to determining that the head-end data-path forms a closed system, the first HE-LRU, under control of its processor, deactivates communication via the second link, thereby forming a loop-free head-end data-path; and wherein, in response to a failure of the first link, the first HE-LRU, under control of its processor, activates communication via the second link, thereby restoring the loop-free head-end data-path. - View Dependent Claims (33, 34, 35, 36, 37, 38, 39, 40, 41, 42)
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43. An inflight entertainment system comprising:
a first head end line replaceable unit (HE-LRU) comprising; a first transceiver; a second transceiver; a third transceiver; and a processor operatively coupled with the first, second, and third transceivers; the first transceiver being configured to communicate directly, via a first link and without an intervening area distribution box, with a serially-connected line replaceable unit (SN-LRU); the second transceiver being configured to communicate with a second HE-LRU via a second link; and the first HE-LRU configured such that, under control of the processor and in response to a failure of the second link, the first HE-LRU activates a third link that enables the third transceiver to communicate with a third HE-LRU. - View Dependent Claims (44, 45, 46, 47, 48, 49, 50)
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51. A method of installing an inflight entertainment system, the method comprising:
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obtaining a first head end line replaceable unit (HE-LRU) comprising; a first transceiver; a second transceiver; a third transceiver; and a processor operatively coupled with the first, second, and third transceivers; directly connecting, via a first link and without an intervening area distribution box, the first transceiver with a serially-connected line replaceable unit (SN-LRU); directly connecting, via a second link and without an intervening area distribution box, the second transceiver with a second HE-LRU; directly connecting, via a third link and without an intervening area distribution box, the third transceiver with a third HE-LRU; programming the first HE-LRU to determine whether the first, second, and third HE-LRUs are connected in a closed-loop data path and, in response to the closed-loop data path being found, to cease communicating on the third link; and programming the first HE-LRU such that, in response to a failure of the second link, the first HE-LRU begins communicating on the third link.
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Specification