Method of distributing audio programming to passenger entertainment systems, and apparatus

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BACKGROUND OF THE INVENTION

This invention relates to a method of and apparatus for distributing audio programming to passenger entertainment systems, and more particularly for distributing audio programming to passenger entertainment systems on-board aircraft.

Passenger carriers, such as aircraft, trains and buses, are often equipped with systems for providing entertainment for passengers. One popular type of passenger entertainment system provides audio programming, generally in the form of a plurality of audio programs including music and speech, on a plurality of channels which may be selected by individual passengers for their listening entertainment and information.

The commercial airline industry, in particular, has made extensive use of passenger entertainment systems, and audio passenger entertainment systems have become common-place aboard commercial passenger aircraft. Such on-board passenger entertainment systems typically include audio playback apparatus for reproducing the audio programs embedded in optical compact disks (CDs) and/or in magnetic audio tapes. Currently, such CDs and tapes are periodically delivered (typically once per month) to an aircraft, for utilization by the aircraft's playback apparatus until replaced when the following month's CD and tape programming is distributed to the aircraft.

Experience has demonstrated that conventional passenger audio entertainment systems using removable program recording media are susceptible to loss of program material due to theft and damage. At the same time, the various audio tapes and/or CDs must be physically delivered to and removed from each aircraft, and the several audio tapes and CDs must be manipulated during their installation in and removal from the playback apparatus aboard each aircraft.

SUMMARY OF THE INVENTION

The present invention provides a method and system for automating the distribution of audio programming to passenger entertainment systems. Rather than delivering tapes and CDs to an aircraft for playback on its passenger entertainment system, the invention provides for the on-board recording or loading of the audio data onto computer storage media resident in the aircraft's passenger entertainment system, and in particular onto a hard-disk array, and the audio programs on the the hard-disk array are played back by the passenger entertainment system. Programming may be periodically replaced by erasing the then-resident data from the hard-disks while recording the new audio data onto the hard-disks. Security of the audio program material is significantly enhanced by the distribution system of the present invention, since the audio data is stored on physically inaccessible computer hard-disk. Unlike the prior art systems, the present system does not require the on-board manipulation of several audio tapes or CDs since the computer hard-disk is not removed from the passenger entertainment system.

Briefly described, the method of distributing audio programming to passenger entertainment systems, according to the present invention, comprises the steps of: providing audio data signals including the audio programming; encoding the signals to produce compressed digitally coded audio data signals; storing the compressed digitally coded data from the encoded signals; distributing the stored data from a central distribution facility to a plurality of local distribution facilities; distributing the centrally distributed data from the local distribution facilities to passenger entertainment systems locally situated with respect to respective ones of the local distribution facilities; and storing the locally distributed data onto computer storage media, such as computer hard-disk, in the locally situated passenger entertainment systems.

The audio data signal providing step, the encoding step, and the step of storing the compressed digitally coded data may be implemented at a mastering facility, which may be the central distribution facility from which the stored data is distributed to the plurality of local distribution facilities. The step of distributing the stored data from the central distribution facility may be implemented by telecommunications link to the plurality of local distribution facilities, for example by telephone link or by satellite link. The step of distributing the centrally distributed data from the local distribution facilities to the various passenger entertainment systems may be implemented by radio-frequency communications link.

Alternatively, the step of distributing the stored data from the central distribution facility to the plurality of local distribution facilities may include the steps of producing auxiliary recordings of the stored data and delivering such recordings to the local distribution facilities. The step of distributing the centrally distributed data from the local distribution facilities to the passenger entertainment systems may include the steps of producing auxiliary recordings of the centrally distributed data at the local distribution facilities and delivering such recordings to the locally situated passenger entertainment systems, or by delivering to the locally situated passenger entertainment systems the auxiliary recordings previously delivered to the local distribution facilities from the central distribution facility. In either case, the step of storing the locally distributed data onto computer storage media resident in the locally situated passenger entertainment systems includes the step of recording or loading the data from the delivered auxiliary recordings onto the passenger entertainment system computer storage media.

In some situations, particularly in connection with satellite broadcast communication between the central distribution facility and the various local distribution facilities, it may be advantageous to transmit the digitally coded audio data in its uncompressed form. In such event, either the compressed digital signal may be decompressed prior to transmission or the encoding step at the central distributing facility may omit the compression function, and the compression function would be performed at the local distribution facilities.

In the context of passenger entertainment systems located aboard aircraft, the local distribution facilities are preferably located at or in the vicinity of airports.

The system, according to one aspect of the present invention, for distributing audio programs to passenger entertainment systems on-board a plurality of aircraft, comprises in combination: means for encoding audio data signals including a plurality of audio programs to produce compressed digitally coded audio data signals; means including first computer storage media, preferably computer hard-disk, for storing the compressed digitally coded data from the encoded signals onto the first computer storage media; central facility transmitting means for transmitting the stored data from a central facility to a plurality of local facilities preferably located at or in the vicinity of airports; local facilities receiving means for receiving the transmitted data at the plurality of local facilities; local facilities storage means including second computer storage media, preferably hard-disk, for storing the received data at the respective local facilities onto the second computer storage media; local facilities transmitting means for transmitting the locally stored data from the respective local facilities for being received by aircraft locally situated with respect to respective ones of the local facilities transmitting means; aircraft receiving means for receiving the locally transmitted data by the locally situated aircraft; and aircraft storage means including third computer storage media, preferably hard-disk, resident in the passenger entertainment systems on-board the aircraft for storing the aircraft received data onto the third computer storage media. The on-board passenger entertainment systems include decompression means for decompressing the data stored by the third computer storage media, as well as decoding means, for generating analog audio output signals therefrom.

BRIEF DESCRIPTION OF THE DRAWINGS

The novel features which are believed to be characteristic of the invention, together with further advantages thereof, will be better understood from the following description considered in connection with the accompanying drawings in which preferred embodiments of the method of and system for practicing the invention are illustrated by way of example. It is to be expressly understood, however, that the drawings are for the purpose of illustration and description only and not intended as a definition of the limits of the invention.

FIG. 1 is a block diagram representing an overview of a system for distributing audio programming to aircraft according to the method of the present invention;

FIG. 2 is a block diagram of a preferred embodiment of the central distribution facility represented in FIG. 1;

FIG. 3 is a block diagram of a preferred embodiment of a local distribution facility represented in FIG. 1;

FIG. 4 is a block diagram representing passenger entertainment system equipment on-board each of the aircraft represented in FIG. 1;

FIG. 5 is a block diagram representing first alternative method steps for distributing audio program material to an aircraft's passenger entertainment system according to the present invention; and

FIG. 6 is a block diagram representing second alternative method steps for distributing audio program material to an aircraft's passenger entertainment system according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The system overview of FIG. 1, which is to be considered in connection with the discussion of FIGS. 2 through 6, is representative of the method and system according to the present invention for distributing audio programming from a central distribution facility 10 to aircraft 12 situated at various locations throughout the world, without leaving tangible media in the aircraft from which the audio programs are to be played back in passenger entertainment systems on-board the aircraft 12. In the preferred system embodiment, the audio programming is distributed from the central distribution facility 10 to a plurality of geographically disbursed local distribution facilities 14. Each local distribution facility 14 subsequently distributes the audio program data to aircraft 12 locally situated with respect to a particular local distribution facility 14, where such data is stored onto computer storage media resident in each of the aircraft 12, as hereinafter described.

A preferred embodiment of a central distribution facility 10 is represented in block form in FIG. 2. The audio program material is derived from various audio sources 16, such as prerecorded music and speech performances from which multi-channel compressed digital audio master recordings may be created and stored on computer hard-disks of a conventional hard-disk array 18.

When producing the preferred master hard-disk recordings, the audio analog data signals 20 from the audio sources 16 are digitized by digital encoder means 22, and the digitally coded audio data signals are compressed by audio compression means 24, to produce compressed digitally coded audio data signals 26.

Compression of the digital audio signals is preferably implemented utilizing the International Standards Organization (ISO) standard Motion Picture Experts Group (MPEG) compression algorithm, Layer II/IIA, widely known under the trademark MUSICAM. MPEG MUSICAM compression utilizes source coding techniques in the digital reduction of high quality audio signals by reducing redundancy and irrelevance in the audio signal. A suitable MUSICAM encoder 28, combining the digital encoding and the audio compression functions 22, 24, is manufactured by CCS Audio Products Division of Corporate Computer Systems, Inc. (Holmdel, N.J.), specifically its Model CDQ 2000 MUSICAM multi-rate digital audio codec. A brochure titled "CDQ 2000 MUSICAM.TM. Multi-rate Digital Audio CODEC", published by Corporate Computer Systems, Inc. in 1992 (5 pages), further describes this apparatus as well as MPEG audio digital compression technology, and is incorporated herein by reference. The multi-rate capability of such devices permits adjustment of the data rate for providing suitability for high-fidelity music audio and speech audio, the music audio requiring higher bit rates than the speech audio. At a data rate of 128 kbits per second, or at a 10 to 1 digital compression, only the world's most discriminating audiophiles may be capable of differentiating between MPEG MUSICAM compressed audio and uncompressed audio.

The compressed digital audio data contained in the signals 26 are stored onto computer hard-disks of the hard disk array 18 through a control computer 30 operating as a mastering workstation in conjunction with the MUSICAM encoder 28. Each hard-disk of the array 18 may have stored thereon a different stereo music program (such as may be produced from existing audio program sources such as prerecorded tapes and compact disks), the several programs on the hard-disk array 18 representing a plurality of channels which (when resident in a hard-disk array on-board an aircraft) may be accessed by an aircraft passenger. In addition, the control computer 30 may permit creation of a custom channel containing discrete message segments with additional data for supporting a random access capability for subsequent use by the aircraft flight crew to play back boarding music and selected announcements to the aircraft passengers. In any event, the control computer 30 is utilized for creating a plurality of master recordings on the hard-disks of the array 18, for example one channel of compressed digital audio programming per hard-disk may be stored in the master hard-disk array 18. The hard-disk array 18 may include, for example, four, eight or more hard-disks.

Typically, new program material is distributed to the aircraft 12 on a periodic basis, such as once each month. The method envisions new or updated compressed digital audio program data to be periodically stored on the master hard-disk array 18, and the updated data is transmitted to the local distribution facilities 14 (FIG. 1) from the central distribution facility 10 by transmitter means 32. For example, a satellite communications link 34 may be utilized with the transmitter 32 operating as an earth station with uplink antenna 36 transmitting microwave signals containing the compressed digital audio data from the hard-disk array 18 to communications satellite 38. The satellite received signals are retransmitted to complete the communications link 34 with each of the local distribution facilities 14, either concurrently or sequentially, such retransmitted signals being received by downlink antenna 38 and receiver 40, as shown in FIG. 3.

Other telecommunication systems may alternatively be utilized for transmitting the compressed digital data from the central distribution facility 10 to the local distribution facilities 14, such as telephone link 34'. A Bulletin Board System (BBS) with multiple high speed links may be employed. If transmission from the central distribution facility 10 to the several local distribution facilities 14 were to occur sequentially, each receiving local facility 14 may acknowledge receipt to the central distribution facility 10. For this purpose the transmitter means 32 and the receiver means 40 may be replaced by transceiver means as indicated in FIGS. 2 and 3.

In certain situations it may be impractical to acknowledge safe receipt of the data by a local facility 14 to the central facility 10, in particular in connection with a satellite communications link where the earth station is transmitting in broadcast mode and all local facilities are simultaneously listening. One means for decreasing the likelihood that a reception error will not result in the generation of any audible flaws during subsequent play-back of the audio programs, is to assure redundancy in the transmitted signal. To this effect, it may be advantageous to transmit the digitally coded audio data in its uncompressed form. At the central facility 10, the compressed digital audio data may be decompressed prior to transmission or the encoding step may omit the compression function, and the decompression step instead would be performed at the local distribution facilities 14 by subjecting the received uncompressed digital data to the audio compression means 24'.

At each local distribution center 14, the compressed digital audio data is stored onto computer hard-disks of a conventional hard-disk array 42 through a control computer 44. The program material stored on the hard-disk arrays 42 at the local distribution facilities 14 would normally be in the same channel per disk configuration as on the master hard disk-array 18. If desired, however, the control computer 44 may be employed for reprogramming or editing the programs in accordance with specific needs of particular aircraft to which the audio programming is to be transmitted.

Each local distribution facility is preferably located at or in the vicinity of a major airport facility at which aircraft periodically land for maintenance and/or other services. When it is time to update the audio programming in the passenger entertainment system of a particular aircraft while it is at such an airport, the compressed digital audio data from the local distribution facility hard-disk array 42 is transmitted through the control computer 44 by transmitter means 46 to that aircraft 12. Transmission is preferably accomplished by radio-frequency communications link 48 from the local facility radio antenna 50 (FIG. 3) to the radio antenna 52 of receiving means 54 on-board the aircraft (FIG. 4). The data