1. Field
The invention relates to a method and system for transmitting data between a central radio station and at least one transmitter.
2. Related Art
Before modulation with a high-frequency carrier, transmission systems for digital radio pack the audio and/or video data to be transmitted in datastreams consisting of data packets arranged in rows, wherein Internet-Protocol-based data packets are used by preference.
Alongside the transmission of useful data of this kind between a central radio station and the receivers of the radio subscribers, operational data of various content must also very frequently be transmitted from the central radio station to the individual transmitters of the digital radio-transmission system.
With regard to the application of the invention, reference can be made, for example, to a television signal according to the ATSC standard, as known, for example, from WO2006/094050A2.
The additional transmission of operational data of this kind exclusively between the central radio station and the transmitters of the transmission network unnecessarily increases the required bandwidth of the transmission system.
Example aspects of the present invention provide methods and transmission systems for transmitting operational data between a central radio station and transmitters, in such a manner that does not unnecessarily increase the bandwidth required for the transmission of the audio and/or video data from the central radio station to the receivers of the radio subscribers.
According to one embodiment, the individual data packets of a datastream transmitted between a central radio station and individual receivers of the radio subscribers within a digital radio-transmission system include first data fields, which are reserved at the origin of the transmission of second data between the individual transmitters and the individual receivers. The individual data packets are used, before the transmission of the second data, for the transmission of first data between the central radio station and the individual transmitters and include second data fields, which are used for the transmission of useful data between the central radio station and the receivers of the radio subscribers.
Preferably, the digital radio system corresponds to the Advanced Television Systems Committee standard (ATSC standard) and generates data packets for the digital datastream with first data fields, which are reserved for data for channel equalization—so-called SRS training sequences, and second data fields, which contain “payload” data (or “useful data”) with digital audio and/or video data.
The first data between the central radio station and individual transmitters are, on one hand, operational data for the targeted, active influence of the operation of the individual transmission devices by the central radio station (such as a software-update data, configuration data, data for remote diagnosis, data for remote servicing, data for remote inspection, control data for remote action, and the like); and, on the other hand, operational data of the operational information system between the central radio station and individual transmission devices.
The second data between the individual transmitters and the individual receivers are used for maintenance and optimization of the physical signal transmission between transmitters and receivers, for example, training data for channel estimation, synchronization data for the synchronization of the receivers with the transmitters or additional data for signal equalization.
The first data can be routed to every transmission device and can include, for example, a general operational message from the central radio station to all transmitters. Alternatively, the first data can be generated only for one transmitter or a sub-group of transmitter and can include, for example, data for remote diagnosis of one or more transmission devices which may be operating incorrectly.
To address the respective transmitters and to provide the correct supply of the individual transmitters with the respectively-associated first data, the first data fields are subdivided into an address part including the transmitter addresses of those transmitters to be supplied with first data and a data part with the respective first data generated for the individual, addressed transmitters.
The first data can be transmitted in every data packet of the digital datastream—for example, in the case of a continuous remote inspection of the individual transmitter devices—or only in every nth data packet of the digital datastream—for example, in the case of cyclical software updates, or only acyclically, as required—for example, in the case of a remote diagnosis for a defective transmitter device.
The features and advantages of the example embodiments of the invention presented herein will become more apparent from the detailed description set forth below when taken in conjunction with following drawings.
Example embodiments of the invention presented herein are directed to a method and system for transmission of data between a central radio station and at least one transmitter using a data structure of the data packets within the digital datastream TSOUT.
As shown in
Referring to
As shown in
Accordingly, in the supply of every transmitter 31, 32, 33, . . . , 3N-2, 3N-1, 3N respectively with individual first data 1_Data1, 1_Data2, . . . , 1_Datan, n different first data 1_Data1, 1_Data2, . . . , l_Datan are stored in the data part 10, and respectively, a single address of that transmitter, which is supplied with the respective first data 1_Data1, 1_Data2, . . . , 1_Datan, is stored in every address field Adr1, Adr2, . . . , Adrn of the address part 9. If all transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N are supplied with identical first data 1_Data1, 1_Data2, . . . , 1_Datan, the data part 10 contains only one data record first data 1_Data1, 1_Data2, . . . , 1_Datan and only the address field Adr1 of the address part 9 relating to the first data 1_Data1 with the addresses of all n transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N. If sub-groups of transmitters draw respectively identical first data, the data part 10 contains only a number of first data corresponding to the number of sub-groups of transmitters, and the address part 9 contains only a number of address fields corresponding to the number of sub-groups of transmitters with a number of transmitter addresses corresponding to the number of transmitters per sub-group of transmitters.
The first data between the central radio station and individual transmitters are, on one hand, operational data for the targeted, active influence of the operation of the individual transmitter devices by the central radio station—for example, software-update data, configuration data, data for remote diagnosis, data for remote servicing, data for remote inspection, control data for remote action, etc.—and, on the other hand, operational data of the operational information system between the central radio station and individual transmission devices.
In the case of software-update data, additional data classifying the update, such as the following classification data, are transmitted alongside the actual data for the software update of the individual transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N:
update version
length of the update software
update method
update time
software compatibility
As shown in
Audio and/or video useful data of the digital radio, especially according to the Advanced Television Systems Committee standard, are stored in the second data field 8 of every data packet of the digital datastream TSOUT.
The method according to the invention for the transmission of data between a central radio station 1 and at least one transmitter 31, 32, 33, . . . , 3N-2, 3N-1, 3N, is described in the following section with reference to the flowchart in
In step S10, the unique specification of the data structure for the individual data packets 5 of the digital datastream TSOUT is implemented by the central radio station 1. In this context, the length of the first data fields 7 for the transmission of the first data or respectively of the second data and the length of the second data fields 8 for the transmission of the audio and video data of the digital television (television signal) is specified in number of bytes. Furthermore, the structure of the first data fields 7 in the transmission of the data packets 5 from the central radio station 1 to the individual transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N,—number n of data records of the first data 1_Data1, 1_Data2, . . . , 1_Datan in the data part 10 and corresponding number n of address fields Adr1, Adr2, . . . , Adrn in the address part 9—and the structure of the first data fields 7 in the transmission of the data packets 5 from the individual transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N, to the individual receivers 41, 42, 43, . . . , 4M-1, 4M of the radio subscribers—number n of data records of the second data 2_Data1, 2_Data2, 2_Datan, is determined.
In the subsequent procedural stage S20, on the basis of the unique specification of the data structure of the individual data packets 5 of the digital datastream TSOUT, the cyclical inscription of the first data fields 7 of the individual data packets 5 with the first data 1_Data1, 1_Data2, . . . , 1_Datan or respectively transmitter addresses and of the second data fields of the individual data packets 5 with digital audio and video useful data of the digital television (television signal) and the cyclical transmission of the data packets 5 defined with data from the central radio station 1 to the individual transmitters TSOUT in operational running is implemented.
The transmission of the first data 1_Data1, 1_Data2, . . . , 1_Datan in this context can be implemented in every data packet 5 of the digital datastream TSOUT—for example, in the case of a continuous remote inspection of the individual transmitter devices—in every n-th data packet 5 of the digital datastream TSOUT—for example, in the case of cyclical software updates—or acyclically, as required—for example, in the case of a remote diagnosis for a defective transmitter device.
In the final procedural stage S30, the first data fields 7 of the received data packets 5 from the individual transmitters 31, 32, 33, . . . , 3N-2, 3N-1, 3N, are each overwritten with second data 2_Data1, 2_Data2, . . . , 2_Datan, and routed to the individual receivers 41, 42, 43, . . . , 4M-1, 4M of the radio subscribers.
The invention is not restricted to the embodiment of the method and the system according to the invention for the transmission of data between a central radio station and at least one transmitter. In particular, the requirements of other, in particular, future digital television standards which implement data structures of data packets in digital datastreams, can be modified and/or used to carry data as described herein.
Number | Date | Country | Kind |
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10 2007 059 959.7 | Dec 2007 | DE | national |