SE513018C2 - Method of transmitting information - Google Patents

Abstract

A method for transferring information from an information provider (100) to an information consumer (190) in a highly efficient manner by means of a digital video broadcasting (DVB, 140) system and a secondary bidirectional transfer network (130). The secondary bidirectional transfer network provides information of where the DVB receiver (191) of the information consumer is located so that only suitable DVB transmitters (146) in the area are used for the information transfer itself. The location is determined by having at least one of either the transmitter frequency, the original network identification, the transport stream identification, and/or the network identification, of a transport stream of one transmitter that the receiver can receive transferred via the secondary bidirectional transfer network. Thereby only the necessary DVB transmitters need to be used for the information transfer, thus relieving the rest of the DVB transmitters (145, 147) from an unnecessary downloading.

Description

20 25 30 513 018 2 mobile phone is switched on (and also when it is not in action, i.e. on-hook) there is an intermittent exchange of information between the mobile phone and the base station in a corresponding cell. The information exchange that takes place when the mobile phone is on-hook is used, for example, for locating the mobile phone. The corresponding base station forwards this information to a central database that the mobile phone operator: maintains to keep track of where all mobile phones are located, i.e. in which cell or group of cells they are currently located. When a request to establish contact with a mobile phone is made, a request is made to the central database to find out in which cell the mobile phone is located, so that the call can be directed to the correct base station for a subsequent correct connection of radio communication. A mobile telephone system unfortunately has relatively narrow bandwidth, i.e. the information transmission capacity is rather low, since the main purpose of the system is to provide two-way transmission of speech, which does not require a particularly high transmission speed.

A DVB (Digital Video Broadcasting) system, i.e. a broadcasting system, may have a cell structure similar to that of a mobile telephone system, but DVB is a one-way broadcasting system, i.e. there is no way for a DVB receiver to communicate with a DVB transmitter in the DVB system. The local DVB transmitter knows which DVB receivers are receiving or which DVB receivers can receive the transmitter, nor whether any DVB receiver can receive or is receiving information at all. A desire to transmit information to a specific DVB receiver and ensure that the DVB receiver has a theoretical chance of receiving this information would therefore involve transmitting this information over all the cells in which the DVB receiver may be located, which normally means the entire DVB network and also over all the different frequencies used in the DVB network. This will result in extremely poor utilization of the DVB network even though a DVB system has a relatively large bandwidth, i.e. the information transfer rate is very high in order to be able to effect the main purpose of broadcasting television to a large number of receivers. However, it can unfortunately be argued that the described 10 15 20 25 30 sisibia method does not utilize the DVB broadcasting system in a particularly efficient way, since the system bandwidth in the entire DVB network is used for the purpose of transmitting such information that is only of value in a very limited region and possibly for a very limited number of receivers.

There appears to be no way of transmitting information in a DVB system to a predetermined single DVB receiver without burdening the entire system with the information, and in particular no way in which this information can be transmitted in a secure manner.

SUMMARY OF THE INVENTION An object of the invention is to establish a method for providing an efficient way of transmitting information via a digital video broadcasting system to one or more predetermined information consumers.

Another object of the invention is to establish a method capable of transmitting information in a digital video broadcasting system in a secure, fault-tolerant and efficient manner without the need to utilize more bandwidth than necessary in the digital video broadcasting system.

The above-mentioned objects are achieved according to the invention with a method for transmitting information from an information provider to an information consumer in a highly efficient manner by means of a digital video broadcasting system (DVB) and a secondary bidirectional transmission network. The secondary bidirectional transmission network provides information about where the information consumer's DVB receiver is located, so that only suitable DVB transmitters in the region are used for the transmission of the information itself. The location is determined by at least one network identification for the transmission stream that the receiver can receive being transmitted via the secondary bidirectional transmission network for the identification of the transmitter used. Thus, only the minimum number of required DVB transmitters need to be used for the information transmission, whereby the rest of the DVB transmitters are relieved of unnecessary load.

The above-mentioned objects are also achieved according to the invention with a method for transmitting information from an information provider to a predetermined information consumer. The information is transmitted by means of a digital video broadcast system to a digital video broadcast receiver of the predetermined information consumer. In order to enable efficient information transmission when a request to transmit information to the predetermined information consumer is initiated at the information provider, the information transmission is supported by a secondary bidirectional transmission network, such as NMT (Nordic Mobile Telephone), GSM (Global System for Mobile Communication), PSTN (Public Switched Telephone Network), Internet, or the like. The method comprises a number of steps. The information provider first establishes contact with an information transmission point to request transmission of information to the predetermined information consumer. The information transmission point may be located at the information provider, located in the DVB system, or be a separate service. The information transfer point then retrieves access information for the predetermined information consumer based on the request made by the information provider.

As a third step, the information transfer point establishes a first contact with the predetermined information consumer based on the obtained access information regarding the predetermined information consumer.

Then, the predetermined information consumer provides the information transfer point via the secondary bidirectional transmission network with transmission configuration information including, depending on the specific DVB network, identifier, original network identifier, and/or the transmitter frequency that identifies at least one of the transport stream identifiers, the transmitter and the transport stream that the digital video broadcast receiver of the predetermined information consumer receives or can receive. Based on the transmission configuration information, the information provider finally transmits information via the information transfer point over the digital video broadcast system to the digital video broadcast receiver of the predetermined information consumer to thereby transmit information from the information provider to the predetermined information consumer in an efficient manner.

Based on the transmission configuration, the method preferably also provides for the information transmission point to transmit the information to the digital video broadcast receiver of the predetermined information consumer over one or more selected transmitters in the digital video broadcast system.

The predetermined information consumer's access information preferably provides information on how contact can be made with the predetermined information consumer via the secondary bidirectional transmission network, and that the step of establishing a first contact with the predetermined information consumer is made via the secondary bidirectional transmission network based on the predetermined information consumer's access information. If the step of establishing a first contact with the predetermined information consumer via the secondary bidirectional transmission network cannot be completed, then a broadcast is preferably made over the digital video broadcast system to alert the predetermined information consumer to establish contact with the information transfer point. If after a certain time, the information transfer point has not been able to establish contact with the predetermined information consumer, then the information provider is suitably notified/notified that the predetermined information consumer cannot be confirmed to be contacted.

The predetermined information consumer's access information may alternatively suitably either provide no information on how contact can be made with the predetermined information consumer via the secondary bidirectional transmission network or provide information on how the predetermined information consumer can be contacted by broadcasting over the digital video broadcasting system, thereby alerting the predetermined information consumer to establish contact with the information transfer point, and that the step of establishing an initial contact with the predetermined information consumer is made via a broadcast over the digital video broadcasting system, thereby alerting the predetermined information consumer to establish contact with the information transfer point. If after a certain time, the information transfer point has not been able to establish contact with the predetermined information consumer, the information provider is preferably alerted that the predetermined information consumer cannot be confirmed to be contacted. The transmission configuration information may also preferably include at least one of the transport stream identifier, the network identifier, the original network identifier and/or the transmitter frequency that identifies the transmitter and the transport stream of all transmitters that can be received by the digital video broadcast receiver of the predetermined information consumer, the field strength of all receivable transmitters, which program/transport stream, if any, the digital video broadcast transmitter of the predetermined information consumer is currently receiving, or alternative information transmission paths. Based on the transmission configuration information, the information transmission point can in certain embodiments of the invention determine when and with which transport stream the information transmission is to take place and by means of the secondary bidirectional transmission network notify the predetermined information consumer of when and with which transport stream the information transmission is to take place. In certain other embodiments, the decision regarding which, if any, alternative transport stream the information transmission shall use may be conveniently made by the information consumer or the digital video broadcast receiver of the information consumer. In certain versions/embodiments of the invention, increased security of the information to be transmitted is of particular importance and these embodiments include additional steps. In a first additional step, the information transmission point transmits an encryption key to the predetermined information consumer by means of the secondary bidirectional transmission network, before, during or after information transmission over the digital video broadcast system. The information to be transmitted is encoded/encrypted either by the information provider or by the information transmission point. Decoding of the transmitted information is carried out by means of the transmitted crypto key either in the digital video broadcast receiver of the predetermined information consumer or by the predetermined information consumer. When high reliability is required in the information transmission, the method according to the invention comprises the following additional steps. First, checksums or the like for the information that has or is to be transmitted via the digital video broadcast system are transmitted via the secondary bidirectional transmission network to the predetermined information consumer. Then, the transmitted information is checked whether it is uncorrupted based on the transmitted checksums or the like. Checking is carried out in the digital video broadcast receiver of the predetermined information consumer or by the predetermined information consumer. Third, the digital video broadcast receiver of the predetermined information consumer or the predetermined information consumer issues a request to the information transmission point for retransmission of corrupted transmitted information. The request is made via the secondary bidirectional transmission network.

The above-mentioned objects are also achieved by a method for transmitting information from an information provider to an information consumer by means of a digital video broadcasting system to a digital video broadcasting receiver at the information consumer. The transmission is carried out with the support of a secondary bidirectional transmission network to thereby enable efficient information transmission upon request for transmission of information to the information consumer and when such request is initiated by the information consumer. The method comprises a number of steps. The information consumer first establishes a first contact with an information transfer point via the secondary bidirectional transmission network with a request for information transfer from the information provider to the information consumer. The information transfer point may be part of the information provider, part of the DVB system, or be a separate service. The information consumer then provides the information transfer point, via the secondary bidirectional transmission network, with transmission configuration information, which, depending on the specific DVB network, comprises at least one of the transport stream identifier, the network identifier, the original network identifier, and/or the transmitter frequency identifying the transmitter and the transport system that the digital video broadcast receiver of the predetermined information consumer receives or can receive. The information transfer point retrieves the requested information. Based on the transmitted configuration information, the information provider then transmits information over the digital video broadcast system to the digital video broadcast receiver of the information consumer via the information transfer point, thereby transmitting information from the information provider to the information consumers in an efficient manner.

Based on the transmission configuration information, the method preferably also causes the information transmission point to transmit the information to the digital video broadcast receiver of the information consumer over one or more selected transmitters in the digital video broadcast system. The transmission configuration information may also preferably also include at least some of the transport stream identifier, the network identifier, the original network identifier, and/or the transmitter frequency identifying the transmitter and the transport stream of all transmitters that can be reached by the digital video broadcast receiver of the predetermined information consumer, the field strengths of all receivable transmitters, which program/transport stream, if any, the predetermined information consumer's video broadcast receiver is currently receiving, or alternative information transmission paths. In some embodiments of the invention, the information transfer point can determine, based on the transfer configuration information, when and with which channel the information transfer is to take place and notify the information consumer via the secondary bidirectional transmission network of when and with which channel the information transfer is to take place. The information transfer point can preferably confirm to the information consumer the availability or non-availability of the requested information via the secondary bidirectional transmission network or via the digital video broadcasting system. In some versions/embodiments of the invention, increased security of the information to be transferred is of increased importance, and these version embodiments include additional steps. In a first further step, the information transfer point transmits an encryption key to the information consumer by means of the secondary bidirectional transmission network before, during or after transmission of information over the digital video broadcasting system.

The information to be transmitted is encoded either by the information provider or by the information transmission point. The decoding of the transmitted information is performed with the transmitted encryption key either in the digital video broadcast receiver of the information consumer or by the information consumer. Since high reliability is required for the transmission of the information, the method according to the invention comprises the following additional steps.

First of all, checksums or the like are transmitted regarding the information that has been or is to be transmitted via the digital video broadcasting system, and this transmission is made to the information consumer via the secondary bidirectional transmission network. Second, the transmitted information is checked whether it is uncorrupted, based on the transmitted checksums or the like. The check is performed in the digital video broadcasting receiver of the information consumer or by the information consumer.

Third, the information consumer's digital video broadcast receiver or information consumer requests, via the secondary bidirectional transmission network, that the information transfer point retransmit garbled transmitted information.

By providing a method for transmitting information from an information provider to an information consumer over only selected parts of a digital video broadcasting system/network, a number of advantages are obtained compared to known systems. By providing information to an information transfer point, from which DVB transmitter information is received and can optionally be received from by the information consumer, the information transfer can be directed accordingly without loading or unloading the entire system. The information required by the information transfer point is transferred to it by means of a secondary bidirectional transmission network, which may be a readily available telephone network, such as GSM. High security is obtained by transferring encryption keys and the like directly to the information consumer by means of the secondary bidirectional transmission network, which in such case is preferably a point-to-point transmission network. High? reliability is obtained by using the secondary bidirectional transmission network as a return channel for requests for retransmission of erroneous data blocks. By not using the entire system bandwidth, the combination of a cheap high-capacity broadcast system and a low-capacity, more expensive secondary bidirectional transmission network, according to the invention, can effectively achieve transmission of information. Another advantage of the invention is the ability to identify an information consumer either by the identity of the DVB receiver, the identity of the secondary bidirectional transmission network transceiver, another identifier that is independent of hardware, or by any combination of the above.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail for explanatory purposes, and in no way limiting, with reference to the following figures, in which: 10 15 20 25 30 513 013 11 Fig. 1 shows a block diagram of an embodiment of a system according to the invention, Fig. 2 shows a flow chart for a method according to the invention, Fig. 3 shows a flow chart for another method according to the invention, and Fig. 4 shows a flow chart showing how high security and fault tolerance are obtained according to a method forming the basis of the invention, DESCRIPTION OF PREFERRED EMBODIMENTS In order to clarify the system according to the invention, certain examples of its use will now be described with reference to Figs. 1-4.

Figure 1 shows a block diagram of an embodiment of a system according to the invention. As indicated in the figure and in the following, certain parts may form smaller or larger groups. The information to be transmitted to an information/data provider 100. The other parts that make up the system are an information consumer/terminal 190 with an information transfer point/service provider 110, an access information database 120, a digital video broadcasting (DVB) network/network provider 140 with associated cells 145, 146, 147, a secondary bidirectional transmission network interactive network 130, an information consumer/terminal 190 with a DVB receiver 191 and a transceiver 192 for the secondary bidirectional transmission network 130 and optional device 199 for handling encrypted transmission. The access information database 120 is used to identify the secondary bidirectional transmission network 130 and to provide access to this network to an information consumer. The invention is not dependent on the exact geographical proximity of the various parts, and the information consumer 190 is logically preferably separate from the other parts 100, 110, 120, 130, 140 of the system. The information transfer point 110 may, for example, be part of the information provider 100 or be part of the access information database 120 and the DVB network/system 140, or may be a completely independent service. As mentioned, there are a variety of possibilities, but these do not affect the invention.

In principle, the invention locates the information consumer 190 and directs the information only to the vicinity of the information consumer 190. The invention utilizes a broadcast system 140 for transmitting information to the information consumer 190. A broadcast system is very efficient in transmitting information to many receivers. In some cases, a broadcast system is referred to as a point-to-multipoint transmission system. A common way of transmitting information to (and from) a single receiver is to use a so-called point-to-point transmission system. A general disadvantage of a point-to-point system is that it is very expensive per unit of transmitted information. A very attractive advantage of utilizing a DVB system for transmitting information is its extremely large bandwidth, i.e. it can transmit large (huge) amounts of data/information in a very short period of time. By placing a receiver/consumer of information 190 in a broadcasting system 1215, 146, 147, the transmission of information can be directed to this location 146: which enables simultaneous use of the network of geographically separated receivers, which makes the transmission of information very cost-effective. A DVB system can be of the SFN (Single Frequency Network) type, be of a more traditional television broadcasting interface with different frequency ranges/cells 145, 146, 147 or a combination where there can be an SFN coverage of a country or large area and also a number of different DVB frequency ranges within the same coverage area, where each can be a small SFN system. It is possible to direct and transmit different information within an SFN as well as in the traditional cell structure. Transmission of different information in an SFN requires great care, but is possible. However, both methods preferably require that the location of the transmitter is known if the transfer of information to a single information consumer 190 is to be effective. Broadcasting of information in a DVB network is done with what is sometimes 10 15 20 25 30 s13 bie 13 called a transport stream which is transmitted at a predetermined carrier frequency from one or more transmitters. A transport stream is a multiplex of information comprising, for example, elementary transport streams for one or more programs (i.e. program channels such as BBC1 or SVT1 and not a time-limited program), data, service information, conditional access control, synchronization information to name a few. The transport stream was developed for multi-program applications, i.e. it usually comprises elementary streams for more than one program. An elementary stream can be, for example, audio, video, teletext and data, where for example a television broadcast (program) comprises a number of elementary streams such as video, mono-audio, stereo-audio, teletext, etc. The transport stream according to DVB also comprises data structures comprising a variety of information. The invention utilizes one or more pieces of information within these data structures depending on the specific DVB network.

The invention specifically utilizes a combination of one or more of the original network identifiers (original_network_id), the transport stream identifiers (transportstream_id), and the network identifiers (network_id) available in the data structure of a DVB transport stream.

According to the invention, a secondary bidirectional transmission network 130 is used to transmit information about the location of the information consumer to the information transmission point 110. One method of obtaining the location of the information consumer would be to use GPS (Global Positioning System) and send the information to the information transmission point 110 via the secondary bidirectional transmission network 130. However, it may from time to time be considered disadvantageous to include GPS in the information consumer.

Another method of locating the information consumer 190 would be to use the information generated by a cellular secondary bidirectional transmission network 130. Unfortunately, such information is usually the property of the network operator and thus not available to users outside the network. The use of such a method would then be specific to a specific secondary bidirectional transmission network 130, which could be considered disadvantageous in some cases. According to the invention: the information included in the transport stream of a DVB broadcast and possibly the frequency of the transmitter of the received transport stream is used to locate the information consumer 190. A combination of one or more of either the transmitter frequency, original network identifier (original_netvj/ork_id), transport stream identifier (transportstream_id), and/or the network identifier (network_id), the entire transport stream, will uniquely identify the transmitter and the transport stream received by the receiver.

Different DVB networks will provide different types of information in the transport stream and give different meanings to the original network identifier, transport stream identifier and network identifier. For some DVB networks, the original network identifier, which provides the source of the transport stream, is sufficient, and this together with the transport stream identifier will uniquely identify where and to which transport stream the information to be transmitted is to be added. If there is no possibility to add the information to the transport stream just received, there may be a need to also make use of the network identifier, which would be the network from which the transport stream is received, and possibly also the received frequency, in order to correctly identify the transmitter from which the transport stream has been received. If the transmitter is identified, it is possible to at least roughly locate the information consumer 190 with its DVB receiver 191 and secondary bidirectional transmission network transceivers 192, to enable alternative transport streams that the DVB receiver may receive, for example from the identified transmitter, to be taken into account. In other DVB networks, the original network identifier may have no significance whatsoever, but the network identifier uniquely identifies the transmitter and frequency. In these DVB networks, it is quite sufficient to make use of the network identifier and only optionally the transport identifier. Depending on the DVB network in question, according to the invention at least one of either the transmitter frequency, original network identifier, transport stream identifier, and/or network identifier will be obtained and transmitted to the information transfer point 110 via the secondary bidirectional transmission network 130. One of these is, as described, sufficient to at least roughly locate the information consumer 190 with its DVB receiver 191 and secondary bidirectional transmission network transceiver 192. Optionally, several receivable transport streams and their corresponding transmitter frequency, original network identifier, transport stream identifier, and/or network identifier, and optionally together with their respective field strengths, are transmitted. This enables the information transfer point 110 to fairly precisely pinpoint the information consumer 190 and thereby determine the most efficient way for the information transfer. Criteria that the information transfer point 110 can use are, for example, direction of movement, free capacity in the various transport streams, the amount of information to be transferred, which transport streams are capable of receiving, urgency/priority of the requested information transfer, etc.

Figure 2 shows a flow chart for a method that the invention utilizes, for example a system according to Figure 1. The method according to Figure 2 describes what happens when a request for the transfer of information to an information consumer is made by an information provider, i.e. a "push system". In a first step, request 210, a request for the transfer of information to an information consumer arises at an information provider. This request is transferred as a requirement or request in a requirement step 220 to an information transfer point. The information transfer point performs a lookup in a lookup step 230 to determine the known methods for establishing contact with the information consumer. Based on this lookup, in an establish contact step 240 contact will be established with the information consumer. The step regarding the establishment of contact 240 may optionally involve the following substeps. Substep SBTN or DVB ? 241 determines whether the first contact with the information consumer is to be made via the secondary bidirectional transmission network (SBTN) or via the digital video broadcasting network (DVB). This information is usually available and determined in the lookup step 230. If the secondary bidirectional transmission network is to be used, a substep contact '? 242 then determines whether it is possible to establish contact with the information consumer. fIf it is possible to establish contact with the information consumer, it is then ensured in the substeps DVB on ? 243 and switch on 244 that the DVB receiver of the information consumer is switched on, after which the procedure continues to the step minimum info 250. If no contact was possible to establish in the substep contact ? 242, for example due to the fact that the secondary bidirectional transmission network/transceiver of the information consumer is out of order or that the information transfer point has no or incorrect information regarding the secondary bidirectional transmission network of the information consumer, one method is to continue to sub-step DVB-transmit 245; In sub-step DVB-transmit 245, a general call is made via part of the complete DVB network to alert the information consumer that a request for transmission of information has arisen. If the general call is received by the information consumer in a sub-step received transmission 246, the information consumer shall then turn on its secondary bidirectional transmission network transceiver and confirm to the information transfer point in a sub-step confirm 247 that it has received the call and then continue with step minimum info 250. If, on the other hand, the information transfer point fails to receive confirmation or other contact with the information consumer within a predetermined time period, the information provider is then notified in a sub-step time out 248 that no contact was possible with the information consumer. After a first contact has been made with the information consumer, the information consumer then transmits in step minimum info 250 to the information transfer point via the secondary bidirectional transmission network: transmission configuration information comprising at least one of the following: transmitter frequency, original network identifier, transport stream identifier, and/or network identifier for the transport stream that the DVB receiver of the information consumer can receive. In a sub-step optional info 251, the information consumer can optionally also provide the information transfer point with: additional transmission configuration information, such as additional receivable transport streams and associated information, field strengths of received transmitters, optional transmission paths, etc. In a sub-step select 252, the information transfer point may optionally determine/select an optimal path/transport stream for transmitting the information. Finally, in a transfer step 260, the information is transferred from the information provider to the information consumer via the digital video broadcast network.

Figure 3 shows a flow chart for another method that the invention utilizes, for example a system according to Figure 1. The method according to Figure 3 describes what happens when a request arises from the information consumer for the transfer of information to the same, i.e. a "pull" system. In a first step, need step 210, the information consumer itself needs to transfer information to the information consumer. In the optional substeps DVB on ? 311, turn on 312, SBTN on ? 313, and turn on 314, the information consumer checks that the required equipment is turned on. In the step minimum info 320, the information consumer then makes a first contact with and transmits to the information transfer point, via the secondary bidirectional transmission network, the request for information and transmission configuration information comprising at least one of the transmitter frequency, the original network identifier, the transport stream identifier and/or the network identifier, for a transport stream that the DVB receiver of the information consumer can receive. Optionally, in a sub-step optional info 321, the information consumer provides the information transfer point with additional transmission configuration information, such as additional transport streams, field strengths of received transmitters, optional transmission paths, etc. In a data step 330, the information transfer point retrieves the requested information from an information provider. Optionally, in a sub-step confirmation 331, the information transfer point confirms to the information consumer whether the requested information is available or not. In a sub-step select 332, the information transfer point also optionally determines/selects an optimal path/transport stream for transmitting the information. Finally, in a transfer step 360, the information is transferred from the information provider to the information consumer via the digital video broadcast network. 10 15 20 25 30 515 0.18 18 Figure 4 shows a flow diagram showing how high security and fault tolerance can be achieved with a method according to the invention which can be implemented in the methods according to Figures 2 and 3 in the form of sub-steps to the transfer steps 260 and 360 respectively. In a first step key 461, an encryption key or the like is transferred to the information consumer via the secondary bidirectional transfer network. In a second step transfer 462, encoded information is transferred to the information consumer via DVB. The information is decoded and decrypted and a test is made in a step OK 'P 463 to determine whether the information received was intact. If it was received without any errors, then in a step confirm 466, the information consumer can optionally confirm, via the secondary bidirectional transmission network, receipt of the information to the information transfer point. In order to make the transmission as efficient as possible, it is probably appropriate in most embodiments of the invention not to confirm correctly received information. If, on the other hand, there is an error in the received information, the information consumer makes a request in a step request resend 4664, via the secondary bidirectional transmission network, to the information transfer point to resend the incorrect information. The information is resent in a step resend 465 over the DVB network, after which the procedure continues with OK ? 363.

The invention can be implemented in apparatus form, either as pure hardware, as pure software or as a combination of hardware and software. If the method according to the invention is implemented in the form of software, this can be completely independent or be part of a larger program. The software can suitably be located in a general purpose computer or in a dedicated computer.

In summary: the invention can in principle be described as a method that provides an efficient way of transmitting information to an information consumer in a DVB network using a secondary bidirectional transmission network.

The invention is not limited to the embodiments described above, but can be varied within the scope of the appended claims.

Claims (18)

1. 0 15 20 25 30 513 018 108749 VG/mm 1999-04-15 19 PATE NTKRAV 1. 2. A method for transmitting information from an information provider to a predetermined information consumer by means of a digital video broadcast system to a digital video broadcast receiver at the predetermined information consumer and supported by a secondary bidirectional transmission network to thereby enable efficient information transmission when the request for transmission of information to the predetermined information consumer is initiated by the information provider, characterized in that the method comprises the following steps: the information provider establishes contact with an information transfer point for the request for transmission of information to the predetermined information consumer; the information transfer point derives access information for the predetermined information consumer based on the request from the information provider; the information transfer point establishes a first contact with the predetermined information consumer based on the derived access information regarding the predetermined information consumer; the predetermined information consumer provides the information transfer point, via the secondary bidirectional transmission network, with transmission configuration information comprising at least one of a transmitter frequency, an original network identifier, a transport stream identifier, and/or a network identifier of a transport stream of a digital video broadcast transmitter that the predetermined information consumer's digital video broadcast receiver can receive; based on the transmitted transmission configuration information, the information provider transmits information over the digital video broadcast system to the digital video broadcast receiver of the predetermined information consumer via the information transfer point, thereby transmitting information from the information provider to the predetermined information consumer in an efficient manner. 10 15 20 25 30 513 nia 20 2. 3. The method of claim 1, characterized in that based on the transmission configuration information, the information transfer point can transmit information to the digital video broadcast receiver of the predetermined information consumer over one or more selected transmitters in the digital video broadcast system. 4. A method according to claim 1 or 2, characterized in that the access information for the predetermined information consumer provides information on how to make contact with the predetermined information consumer via the secondary bidirectional transmission network, and that the step of establishing initial contact with the predetermined information consumer is made via the secondary bidirectional transmission network based on the access information for the predetermined information consumer. _ A method according to claim 3, characterized in that if the step of establishing initial contact with the predetermined information consumer via the secondary bidirectional transmission network cannot be completed, broadcasting is performed over the digital video broadcasting system to request that the predetermined information consumer establish contact with the information transmission point. . 5. Method according to claim 4, characterized in that if the information transfer point has not succeeded in establishing contact with the predetermined information consumer after a certain period of time, the information provider is notified that the predetermined information consumer cannot be contacted. 6. Method according to claim 1 or 2, characterized in that the access information for the predetermined information consumer either does not provide information on how contact can be made with the predetermined information consumer via the secondary bidirectional transmission network, or the access information provides information on how the predetermined information consumer is to be contacted by broadcasting over the digital video broadcasting system, thereby alerting the predetermined information consumer to establish contact with the information transmission point, and that the step of establishing a first contact with the predetermined information consumer is made via a broadcasting over the digital video broadcasting system, thereby inducing the predetermined information consumer to establish contact with the information transmission point. 7. Method according to claim 6, characterized in that if the information transfer point has not been able to establish contact with the predetermined information consumer after a period of time, the information provider is notified that the predetermined information consumer cannot be contacted. 8. Method according to any one of claims 1-7, characterized in that the transmission configuration information additionally also comprises at least one of either a transmitter frequency, an original network identifier, a transport stream identifier, and/or a network identifier, for transport streams of transmitters receivable by the digital video broadcast receiver of the predetermined information consumer, the field strengths of receivable transmitters, which program, if any, the digital video broadcast transmitter of the predetermined information consumer is currently receiving, or alternative information transmission paths. 9. Method according to any one of claims 1-8, characterized in that based on the transmission configuration information, the information transfer point determines when and with which transport stream the information transfer shall take place and by means of the secondary cross-directional transmission network notifies the predetermined information consumer of when and with which transport stream the information transfer shall take place. 10. Method according to any one of claims 1-9, characterized in that the method further comprises the following steps: 10 15 20 25 30 11. 5113 (118 22 the information transmission point transmits an encryption key to the predetermined information consumer by means of the secondary bidirectional transmission network before, during or after transmission of information over the digital video broadcasting system; encoding of the information to be transmitted either by the information provider or by the information transmission point; decoding by means of the transmitted encryption key of the transmitted information either in the digital video broadcasting receiver of the predetermined information consumer or by the predetermined information consumer. 11. Method according to any one of claims 1-10, characterized in that the method further comprises the following steps: transmitting checksums or the like for the information that has been or will be transmitted via the digital video broadcasting system, via the secondary bidirectional transmission network to the predetermined information consumer; checking whether the transmitted information is uncorrupted based on the transmitted checksums or the like, by checking in the digital video broadcasting receiver of the predetermined information consumer or by the predetermined information consumer; requesting from the digital video broadcasting receiver of the predetermined information consumer or the predetermined information consumer, via the secondary bidirectional transmission network, to the information transmission point to retransmit corrupted transmitted information. 12. A method for transmitting information from an information provider to an information consumer by means of a digital video broadcast system to a digital video broadcast receiver at the information consumer, and supported by a secondary bidirectional transmission network to thereby enable efficient information transmission when a request for transmission of information to the information consumer is initiated by the information consumer, characterized in that the method comprises the following steps: the information consumer establishes a first contact with an information transmission point via the secondary bidirectional transmission network requesting information transmission from the information provider to the information consumer; the information consumer provides the information transfer point, via the secondary bidirectional transmission network, with transmission configuration information comprising at least one of a transmitter frequency, an original network identifier, a transport stream identifier, and/or a network identifier for a transport stream from a digital video broadcast transmitter that the information consumer's digital video broadcast receiver can receive; the information transfer point derives the requested information; based on the transmission configuration information, the information provider transmits information over the digital video broadcast system to the digital video broadcast receiver of the information consumer via the information transfer point to thereby transmit information from the information provider to the information consumer in an efficient manner. 13. The method of claim 12, characterized in that based on the transmission configuration information, the information transmission point can transmit the information to the digital video broadcast receiver of the information consumer over one or more selected transmitters in the digital video broadcast system. 14. Method according to any one of claims 12 or 13, characterized in that the transmission configuration information additionally also comprises at least one of either a transmitter frequency, an original network identifier, a transport stream identifier, and/or a network identifier, for transport streams of transmitters that can be received by the predetermined information consumer's digital video broadcast receiver, the field strengths of receivable transmitters, which program, if any, the digital video broadcast transmitter of the predetermined information consumer is currently receiving, or alternative information transmission paths. 15. Method according to any one of claims 12-14, characterized in that based on the transmission configuration information, the information transfer point determines when and with which transport stream the information transfer shall take place, and by means of the secondary bidirectional transmission network notifies the information consumer of when and with which transport stream the information transfer shall take place. 16. Method according to any one of claims 12-15, characterized in that the information transfer point confirms the availability or non-availability of the requested information to the information consumer via the secondary bidirectional transmission network or via the digital video broadcasting system. 17. Method according to any one of claims 12-16, characterized in that the method further comprises the following steps: the information transfer point transmits an encryption key to the information consumer by means of the secondary bidirectional transmission network before, during or after transmission of information over the digital video broadcasting system; encoding of the information to be transmitted either by the information provider or by the information transfer point; decoding by means of the transmitted encryption key of the transmitted information either in the digital video broadcasting receiver of the information consumer or the information consumer. 18. Method according to any one of claims 12-17, characterized in that the method further comprises the following steps: 10 513 018 25 transmitting checksums or the like, regarding the information that has been transmitted or that is to be transmitted via the digital video broadcast system, via the secondary bidirectional transmission network to the information consumer; checking whether the transmitted information is uncorrupted, based on the transmitted checksums or the like, checking in the digital video broadcast receiver of the information consumer or by the information consumer; requesting from the digital video broadcast receiver of the information consumer or the information consumer, via the secondary bidirectional transmission network, to the information transfer point for retransmission of corrupted transmitted information.