Title of Invention	A TRANSMISSION SYSTEM AND A METHOD FOR TRANSMITTING A MULTIPLEX SIGNAL FROM A TRANSMITTER TO A RECEIVER VIA A TRANSMISSION CHANNEL
Abstract	ABSTRACT A TRANSMISSION SYSTEM AND A METHOD FOR TRANSMITTING A MULTIPLEX SIGNAL FROM A TRANSMITTER TO A RECEIVER VIA A TRANSMISSION CHANNEL Transmission system for transmitting an MPEG-2 transport stream from a transmitter (10) to a receiver (14), provided with a return channel (16) through which the receiver (14) can transmit selection criteria for the selection of MPEG-2 sections to the transmitter (10). The transmitter (10) has a selector (38), which receives the desired criteria and then filters the sections according to these criteria before transmission. 12

Title of Invention

A TRANSMISSION SYSTEM AND A METHOD FOR TRANSMITTING A MULTIPLEX SIGNAL FROM A TRANSMITTER TO A RECEIVER VIA A TRANSMISSION CHANNEL

Abstract

ABSTRACT A TRANSMISSION SYSTEM AND A METHOD FOR TRANSMITTING A MULTIPLEX SIGNAL FROM A TRANSMITTER TO A RECEIVER VIA A TRANSMISSION CHANNEL Transmission system for transmitting an MPEG-2 transport stream from a transmitter (10) to a receiver (14), provided with a return channel (16) through which the receiver (14) can transmit selection criteria for the selection of MPEG-2 sections to the transmitter (10). The transmitter (10) has a selector (38), which receives the desired criteria and then filters the sections according to these criteria before transmission. 12

Full Text	Transmission system, transmitter and receiver The invention relates to a transmission system for transmitting a multiplex signal from a transmitter to a receiver via a transmission channel, in which the multiplex signal has apIuraUty of information sections comprising information about the multiplex signal, and in which the transmission system is provided with a return channel from the receiver to the transmitter. The invention also relates to a transmitter for transmittuag a multiplex signal via a transmission channel, in which the multiplex signal has a plurality of information sections comprising information about the multiplex signal. The invention further relates to a receiver for receiving a multiplex signal from a transmitter, in which the multiplex signal has a plurality of information sections comprising information about the multiplex signal, and in which the receiver is provided with a connection for a return channel from the receiver to the transmitter. The invention finther relates to a method of transmitting a multiplex signal from a transmitter to a receiver via a transmission channel, in which the multiplex signal has a plurality of information sections comprising infomiation about the multiplex signal, and in which the transmission system is provided with a return channel from the receiver to the transmitter. A transmission system of the type described in the opening paragraph is known from the article "Breaking open the set top box" by David Banks, Anthony Wiley et al (Proceedings of the SPIE, The International Society for Optical Engineering 1998, vol. no. 3228, pp. 105-116). Transmission systems for transmitting video, audio and other signals are often coded in accordance with the MPEG-2 standard. The signals to be transmitted are coded to form elementary streams. These streams are subsequently combined (multiplexed) for transmission and thus constimte a transport stream. A transport stream is composed of packets. A packet may comprise a part of an elementary stream and is then provided with the Program Identifier (PID) of the relevant elementary steam. The elementary stream can be recorwtructed from the separate p^kets by means of the PID. A packet may also have an information section comprising information about the elementary streams such as, for example, the association between a program and tiie associated elementary streams with the audio and video information of this program, or, for example, the entitlement management and control mess^es. The transmitter transmits the entire transport stream to the receiver which can subsequently reconstract the elementary streams by means of the PIDs, read the information sections and reconstmct the desired signals for the user. A drawback of such a system is Ihat the quantity of data traffic is always equally large, even when the user needs only one elementary stream. The system as described m Banks et al solves this problem by making use of a return channel through which the receiver can pass on the desired PIDs of the elementary streams to the transmitter. The transmitter then selects the packets comprising one of these PIDs and transmits only these packets to the receiver. A saving of the bandwidth used is thereby obtained. A drawback of this system is that only the desired elementary streams are selected. The information sections which are also transmitted are repeated at regular instants, even when the relevant information is unmodified with respect to the previously transmitted section or when the receiver does not need this section. This means that there is still a waste ofbandwidth. It is an object of the invention to provide a transmission system of the type described in the opening paragr^h in which a fiirther saving ofbandwidth is obtained. According to the invention, this object is achieved in the transmission system which is characterized m that the receiver has section selection means for submitting a criterion for filtering information sections to the transmitter via the return channel and in that the transmitter has section filtering means for filtering information sections according to the submitted critraion and networidng means for transmitting the information sections that satisfy the criterion. In this transmission system, the receiver can indicate which information sections it needs. The transmitter can filter out the unwanted information sections fi:om the transport stream according to the submitted criterion. Since information sections are normally repeated regularly, a satisfactory saving ofbandwidth is obtained with this system. An embodiment is characterized in that the section filtering means are arranged for at least one of positive and negative filtering. Both metiiods of filtering have their own advantages. Which one to tdioose depends on the type of information that needs to be filtered. Using positive filtering, only the information that matches the given criterion is selected and transmitted to the receiver. When using negative filtering, only the information that does not match the given criterion satisfies it A further embodiment is characterized in that the networidng means are arranged for transmitting the selected information sections via an additional transmission chamiel. This embodiment has the advantage that the receiver does not need to select the infonnation sections fit)m the transport stream, which is a time-consuming operation due to the large quantity of packets of the elementary streams therwn. It is also an object of the invention to provide a transmitter of the type described in the opening paragr^h, in which a fiuther saving of bandwidth is obtained. According to the invention, this object is achieved in a transmitter which is characterized in that the transmitter has section filtering means for filtering information sections according to the submitted criterion and networking means for transmitting infonnation sections that satisfy the criterion. The transmitter can filter out the unwanted information sections from tiie transport stream according to die submitted criterion. Since information sections are normally repeated regularly, a satisfactory saving of bandwidth is obtained with tiiis system. An embodiment of the transmitter is characterized in that the section filtering means are arranged for at least one of positive and negative filtering.'Both methods of filtering have their own advantages. Which one to choose depends on the type of infonnation that needs to be filtered. Using positive filtering, only the infonnation that matches the given criterion is selected and transmitted to the receiver. When using negative filtering, only the information that does not match the given criterion satisfies it, A furthra: embodiment of the transmitter is characterized in that the section filtering means are arranged for adding the submitted filtering criterion to a collection of criteria in response to receiving said submitted filtering criterion. Using this collection, the. transmitter can easily ^ply multiple criteria on a single transport stream. The collection can e.g. be realized using a memory or buffer of some land on the transmitter. A further embodiment of the transmitter is characterized in that the section filtering means are arranged for removing-a criterionlBDm the collection after filtering a single mfonnation section that satisfies said criterioij. In this embodiment, a receiver can submit a filtering criterion that will match at most one information section. By using, fw instance, a negative filter that filters out all information sections, he can effectively block the transmission of all sections. He can then submit a positive fihering criterion that is to be used only once when he needs the information in a particular section. The transmitter will then filter that section and transmit it to the receiver, and then, remove the criterion so no further sections are transmitted. This is a very effective way of saving bandwidth. A flirther anbodiment of the transmitto- is characterized in that the section filtering means are arranged for removing a criterion from the collection when a revocation request is received for said criterion. The revocation request can be sent e.g. by the receiver. TTiis allows the receiver to revoke any criteria it submitted previously. It is ^so an object of the invention to provide a receiver of the type described in the opening paiagn^h, in which a fiirther saving of bandwidth is obtained. According to the invention, this object is achieved in a receiver which is characterized in that the receiver has section selection means for submitting a criterion for filtering information sections to the transmitter via the return channel. An embodiment of the receiver is characterized in that the section selection means are arranged for sending a revocation request specifying a particular critaion to the transmitter for causing tiie transmitter to stop filtering information sections according to the particular criterion. It is also anbbjectof the invention to provide a method of the type described in the opening paragraph, which obtaiEis a fiirther saving of bandwidth. According to the invention, this object is achieved in a method which is characterized in &at the receiver submits a criterion for filtering information sections to the transmitter via the return channel and in that the transmitter filters information sections according to the si^mitted criterion and transmits the information sections that satisfy die criterion. These and other aspects of the invention are apparent from and will be elucidated vnih reference to the embodiments described hereinafter. In the drawings: Fig. 1 shows diagraimnatically a transmission system according to the ijwention; ^ , w f^ '• Fig. 2 shows diagraramatically a receiver according to the invention; and Fig. 3 shows diagrammatically a transmitter according to the invention. Throughout the figures, same reference numerals indicate similar or corresponding features. Some of the features indicated in the drawings are typically implemented in software, and as such represent software entities, such as software modules or objects. The transmission system of Fig. 1 comprises a transmission channel 12 for transmitting a multiplex signal from a transmitter 10 to a receiver 14. In the embodiment shown in Fig. 1, the multiplex signal is an MPEG-2 transport stream. In addition to a variety of elementary streams, the transport stream comprises a plurality of infoimation sections coraprising infoimation about the elementary streams. These information sections comprise, for example, the Program Map Table (PMT) in which die relation between each program in the transport stream and the PIDs of the associated audio and video signals is laid down, or the Conditional Access Table (CAT) which comprises the entitlement and management mformation with which access to given streams is hmited to authorized users. The transmission system is also provided "with a return chaimel 16 from the receiver 14 to the transmitter 10. This return chaimel may be, for example, an Intemet connection or may be ad^ted as a separate channel through the same medium as that through which the transmission channel is realized. As will be apparent from the description of Figs. 2 and 3, the receiver is adi^>ted to transmit a critoion for selecting at least one information section to the transmitter via the return channel, which transmitter is adapted to select infonnalion sections satisfying the received criterion and to transmit the information sections thus selected. In a particular embodiment, the transmission system is also provided with an additional transmission channel 18 through which the transmitter 10 can transmit the selected information sections to the receiver. Now, the receiver 14 does not need to select the information sections from the transport stream, which is a time-consuming operation due to the large quantity of packets of the elementary streams therein. In Fig, 2, the receiver is provided with a control component 20, a networic . interface 22, a demultiplexer 24 and a decoder 26. A transport stream presented through the transmission channel 12 is received by the network interface 22 and transmitted to the iemuitiplexer 24. This demultiplexer recotvstructs the individual elementary streams and jresents them to the decoder 26. The demultiplexer 24 also comprises a section filter bank 28 n which infoimation sections are retrieved from the transport stream so that these can be irocessed s^arately. The control component 20 controls and checks the other components of he receiver. Tte receiver may be, for example, a set top box connected to a television set vith which a user can receive video, audio and other signals. The receiver is also provided wilii a section selection monitor 29 which generates criteria for selecting information sections. A possible aiterion is the version number of the desired information section. The receiver thereby indicates that it only wants to receive the infonnation section when its version number is higher than the version number as stated in the criterion. Another possible criterion is an instant at which the receiver only wants to receive the information sections made or modified after that instant. Many other criteria are feasible. As will become apparent below, the criteria can be specified in a variety of ways, depending on the type of information that neech to be filtered. The monitor 29 subsequentiy sends the generated criteria to a trar^mitter via the retimi channel 16. The monitor 29 can also use the return channel 16 to signal to the transmitter that it should stop filtering according to a previously transmitted criterion. The transmitter shown in Fig. 3 is adapted to transmit a transport stream via a networic interface 34 through the transmission channel 12. In the embodiment shown, the transmitter is provided with an encoder 30 which forms a plurality of elementary streams from presented signals, and a multiplexer 32 which combines the elementary streams and the associated information sections to a transport stream. In another embodiment (not shown) the transmitter 10 receives an already constructed transport stream &om elsewhere and the transmitter 10 only ensures that this transport stream is transmitted to a receiver 14. Then, it is not necessary to include an encoder 30 and a multiplexer 32 in the transmitter 10. The transmitter is also provided with a control component 36 and a selector 38 which can receive a pluraUty of criteria via the return channel 16. The control component 36 controls and checks the other components of the transmitter. The selector 38 is positioned between the multiplexer 32 and the network interface 34 and only passes infonnation sections that satisfy one or more received criteria. A filtering criterion may be applied once or multiple times. Using the criterion only once allows for the selection of a single information section. This will be discussed in more detail below. Continuous filtering makes it possible to obtain one or more infoimation sectioiK that satisfy the given criterion until some condition is met, e.g, when the receiver sigials the filtering should stop. Filtering can be done using various levels of granularity for the criterion. At the minimum, the PID of an elementary stream from which sections are to be filtered needs to be specified. The filtering can be made more specific by adding an identifier for an information section or table which is to be filtered specifically in that elementary stream. More advanced filtering criteria can be realized using positive and negative filtering. Using positive filtering, only the information that matches the given criterion is selected and transmitted to the recavcr. When using negative filtering, only tiie infonnation that does not match the given criterion satisfies it. In particular, positive and negative filtering can be realized at the bit level by specifying the criterion as a mask which is to be appHed using a bitwise AND operation to the information section to be filtered. If the output of the ^plication of the mask matches an outcome given in the criterion, the information section matches the criterion. Depending on whether the type of filtering was positive or negative, the section is then selected or filtered out. It may be necessary to indicate in tht criterion an offeet at which to start applying the mask. In the embodiment shown in the drawing, the resultant transport stream is subsequently transmitted by the network interface 34 to the receiver via the transmission channel 12. In another anbodiment (not shown), the selector 38 ranoves all infonnation sections that do not satisfy one of the received criteria fi-om the transport stream. The information sections that satisfy the criteria are passed on to the network interface 34 which transmits them to the receiver via an additional transmission channel 18. The selector 38 is preferably arrangwl to mamtain a collection of criteria that have been submitted by one or more receivers previously. The selector 38 can then filter all information sections according to the criteria in the collection. "Hie collection can e.g. be realized using a memory or buffer of some kind on the transmitter. Receivers can send a revocation request to the selector 38 that a particular criterion should no longer be used. The selector 38 then removes it from the collection. Criteria may also be removed because of other reasons, e.g, because a criterion has a limited lifetime and Ais lifetime has been exceeded. A criterion may also be ronoved from the collection when it has been used to filter a single infonnation section. The receiver 14 can submit, for instance, a negative filter that filters out all infonnation sections. This way, he can effectively block the transmission of all sections. The receiver 14 can then submit a positive filtering criterion that is to be used only once when he needs the information in a particular section. The transmitter 10 will then filter that section and transmit it to the receiver, and then remove the criterion so no fxalher sections are transmitted. This is a very effective way of saving baidwidth. 8 WE CLAIM : 1. A transmission system for transmitting a multiplex signal from a transmitter (10) to a receiver (14) via a transmission channel (12), in which the muhiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the transmission system is provided with a return channel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) has section selection means (29) for submitting a criterion for filtering information secfions to the transmitter (10) via the return channel (16) and in that the transmitter (10) has section filtering means (38) for filtering information sections according to the submitted criterion and networking means (34) for transmitting the information sections that satisfy the criterion. 2. A transmission system as claimed in claim 1, wherein the section filtering means (38) are arranged for at least one of positive and negative filtering. 3. A transmission system as claimed in claim I, wherein the networking means (34) are arranged for transmitting the selected information sections via an additional transmission channel (18). 4. A transmitter (10) for transmitting a multiplex signal via a transmission channel (12), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, characterized in that the transmitter (10) has section filtering means (38) for filtering information sections according to the submitted criterion and networking means (34) for transmitting information sections that satisfy the criterion. 5. A transmitter (10) as claimed in claim 4, wherein the section filtering means (38) are arranged for at least one of positive and negative filtering. 6. A transmitter (10) as claimed in claim 4, sfiltering means (38) are arranged for adding the submitted filtering criterion to a collection of criteria in response to receiving said submitted filtering criterion. 7. A transmitter (10) as claimed in claim 6, wherein the section filtering means (38) are arranged for removing a criterion from the collection after filtering a single information section that satisfies said criterion 8. A transmitter (10) as claimed in claim 6, wherein the section filtering means (38) are arranged for removing a criterion from the collection when a revocation request is received for said criterion. 9. A receiver (14) for receiving a multiplex signal from a transmitter (10), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the receiver (14) is provided with a connection for a return chaimel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) has section selection means (29) for submitting a criterion for filtering information sections to the transmitter (10) via the return charmel (16). 10. A receiver (14) as claimed in claim 9, wherein the section selection means (29) are arranged for sending a revocation request specifying a particular criterion to the transmitter (10) for causing the transmitter (10) to stop filtering information sections according to the particular criterion. 10 11. A method of transmitting a multiplex signal from a transmitter (10) to a receiver (14) via a transmission channel (12), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the transmission system is provided with a return charmel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) submits a criterion for filtering information sections to the transmitter (10) via the return channel (16) and in that the transmitter (10) filters information sections according to the submitted criterion and transmits the information sections that satisfy the criterion. 11

Full Text

Transmission system, transmitter and receiver
The invention relates to a transmission system for transmitting a multiplex signal from a transmitter to a receiver via a transmission channel, in which the multiplex signal has apIuraUty of information sections comprising information about the multiplex signal, and in which the transmission system is provided with a return channel from the receiver to the transmitter.
The invention also relates to a transmitter for transmittuag a multiplex signal via a transmission channel, in which the multiplex signal has a plurality of information sections comprising information about the multiplex signal.
The invention further relates to a receiver for receiving a multiplex signal from a transmitter, in which the multiplex signal has a plurality of information sections comprising information about the multiplex signal, and in which the receiver is provided with a connection for a return channel from the receiver to the transmitter.
The invention finther relates to a method of transmitting a multiplex signal from a transmitter to a receiver via a transmission channel, in which the multiplex signal has a plurality of information sections comprising infomiation about the multiplex signal, and in which the transmission system is provided with a return channel from the receiver to the transmitter.
A transmission system of the type described in the opening paragraph is known from the article "Breaking open the set top box" by David Banks, Anthony Wiley et al (Proceedings of the SPIE, The International Society for Optical Engineering 1998, vol. no. 3228, pp. 105-116).
Transmission systems for transmitting video, audio and other signals are often coded in accordance with the MPEG-2 standard. The signals to be transmitted are coded to form elementary streams. These streams are subsequently combined (multiplexed) for transmission and thus constimte a transport stream. A transport stream is composed of packets. A packet may comprise a part of an elementary stream and is then provided with the Program Identifier (PID) of the relevant elementary steam. The elementary stream can be recorwtructed from the separate p^kets by means of the PID. A packet may also have an

information section comprising information about the elementary streams such as, for example, the association between a program and tiie associated elementary streams with the audio and video information of this program, or, for example, the entitlement management and control mess^es. The transmitter transmits the entire transport stream to the receiver which can subsequently reconstract the elementary streams by means of the PIDs, read the information sections and reconstmct the desired signals for the user.
A drawback of such a system is Ihat the quantity of data traffic is always equally large, even when the user needs only one elementary stream. The system as described m Banks et al solves this problem by making use of a return channel through which the receiver can pass on the desired PIDs of the elementary streams to the transmitter. The transmitter then selects the packets comprising one of these PIDs and transmits only these packets to the receiver. A saving of the bandwidth used is thereby obtained.
A drawback of this system is that only the desired elementary streams are selected. The information sections which are also transmitted are repeated at regular instants, even when the relevant information is unmodified with respect to the previously transmitted section or when the receiver does not need this section. This means that there is still a waste ofbandwidth.
It is an object of the invention to provide a transmission system of the type described in the opening paragr^h in which a fiirther saving ofbandwidth is obtained.
According to the invention, this object is achieved in the transmission system which is characterized m that the receiver has section selection means for submitting a criterion for filtering information sections to the transmitter via the return channel and in that the transmitter has section filtering means for filtering information sections according to the submitted critraion and networidng means for transmitting the information sections that satisfy the criterion.
In this transmission system, the receiver can indicate which information sections it needs. The transmitter can filter out the unwanted information sections fi:om the transport stream according to the submitted criterion. Since information sections are normally repeated regularly, a satisfactory saving ofbandwidth is obtained with this system.
An embodiment is characterized in that the section filtering means are arranged for at least one of positive and negative filtering. Both metiiods of filtering have their own advantages. Which one to tdioose depends on the type of information that needs to be filtered. Using positive filtering, only the information that matches the given criterion is

selected and transmitted to the receiver. When using negative filtering, only the information that does not match the given criterion satisfies it
A further embodiment is characterized in that the networidng means are arranged for transmitting the selected information sections via an additional transmission chamiel. This embodiment has the advantage that the receiver does not need to select the infonnation sections fit)m the transport stream, which is a time-consuming operation due to the large quantity of packets of the elementary streams therwn.
It is also an object of the invention to provide a transmitter of the type described in the opening paragr^h, in which a fiuther saving of bandwidth is obtained.
According to the invention, this object is achieved in a transmitter which is characterized in that the transmitter has section filtering means for filtering information sections according to the submitted criterion and networking means for transmitting infonnation sections that satisfy the criterion. The transmitter can filter out the unwanted information sections from tiie transport stream according to die submitted criterion. Since information sections are normally repeated regularly, a satisfactory saving of bandwidth is obtained with tiiis system.
An embodiment of the transmitter is characterized in that the section filtering means are arranged for at least one of positive and negative filtering.'Both methods of filtering have their own advantages. Which one to choose depends on the type of infonnation that needs to be filtered. Using positive filtering, only the infonnation that matches the given criterion is selected and transmitted to the receiver. When using negative filtering, only the information that does not match the given criterion satisfies it,
A furthra: embodiment of the transmitter is characterized in that the section filtering means are arranged for adding the submitted filtering criterion to a collection of criteria in response to receiving said submitted filtering criterion. Using this collection, the. transmitter can easily ^ply multiple criteria on a single transport stream. The collection can e.g. be realized using a memory or buffer of some land on the transmitter.
A further embodiment of the transmitter is characterized in that the section filtering means are arranged for removing-a criterionlBDm the collection after filtering a single mfonnation section that satisfies said criterioij. In this embodiment, a receiver can submit a filtering criterion that will match at most one information section. By using, fw instance, a negative filter that filters out all information sections, he can effectively block the transmission of all sections. He can then submit a positive fihering criterion that is to be used only once when he needs the information in a particular section. The transmitter will then

filter that section and transmit it to the receiver, and then, remove the criterion so no further sections are transmitted. This is a very effective way of saving bandwidth.
A flirther anbodiment of the transmitto- is characterized in that the section filtering means are arranged for removing a criterion from the collection when a revocation request is received for said criterion. The revocation request can be sent e.g. by the receiver. TTiis allows the receiver to revoke any criteria it submitted previously.
It is ^so an object of the invention to provide a receiver of the type described in the opening paiagn^h, in which a fiirther saving of bandwidth is obtained.
According to the invention, this object is achieved in a receiver which is characterized in that the receiver has section selection means for submitting a criterion for filtering information sections to the transmitter via the return channel.
An embodiment of the receiver is characterized in that the section selection means are arranged for sending a revocation request specifying a particular critaion to the transmitter for causing tiie transmitter to stop filtering information sections according to the particular criterion.
It is also anbbjectof the invention to provide a method of the type described in the opening paragraph, which obtaiEis a fiirther saving of bandwidth.
According to the invention, this object is achieved in a method which is characterized in &at the receiver submits a criterion for filtering information sections to the transmitter via the return channel and in that the transmitter filters information sections according to the si^mitted criterion and transmits the information sections that satisfy die criterion.
These and other aspects of the invention are apparent from and will be elucidated vnih reference to the embodiments described hereinafter.
In the drawings:
Fig. 1 shows diagraimnatically a transmission system according to the
ijwention; ^ , w f^ '•
Fig. 2 shows diagraramatically a receiver according to the invention; and
Fig. 3 shows diagrammatically a transmitter according to the invention.
Throughout the figures, same reference numerals indicate similar or corresponding features. Some of the features indicated in the drawings are typically

implemented in software, and as such represent software entities, such as software modules or objects.
The transmission system of Fig. 1 comprises a transmission channel 12 for transmitting a multiplex signal from a transmitter 10 to a receiver 14. In the embodiment shown in Fig. 1, the multiplex signal is an MPEG-2 transport stream. In addition to a variety of elementary streams, the transport stream comprises a plurality of infoimation sections coraprising infoimation about the elementary streams. These information sections comprise, for example, the Program Map Table (PMT) in which die relation between each program in the transport stream and the PIDs of the associated audio and video signals is laid down, or the Conditional Access Table (CAT) which comprises the entitlement and management mformation with which access to given streams is hmited to authorized users.
The transmission system is also provided "with a return chaimel 16 from the receiver 14 to the transmitter 10. This return chaimel may be, for example, an Intemet connection or may be ad^ted as a separate channel through the same medium as that through which the transmission channel is realized.
As will be apparent from the description of Figs. 2 and 3, the receiver is adi^>ted to transmit a critoion for selecting at least one information section to the transmitter via the return channel, which transmitter is adapted to select infonnalion sections satisfying the received criterion and to transmit the information sections thus selected.
In a particular embodiment, the transmission system is also provided with an additional transmission channel 18 through which the transmitter 10 can transmit the selected information sections to the receiver. Now, the receiver 14 does not need to select the information sections from the transport stream, which is a time-consuming operation due to the large quantity of packets of the elementary streams therein.
In Fig, 2, the receiver is provided with a control component 20, a networic . interface 22, a demultiplexer 24 and a decoder 26. A transport stream presented through the transmission channel 12 is received by the network interface 22 and transmitted to the iemuitiplexer 24. This demultiplexer recotvstructs the individual elementary streams and jresents them to the decoder 26. The demultiplexer 24 also comprises a section filter bank 28 n which infoimation sections are retrieved from the transport stream so that these can be irocessed s^arately. The control component 20 controls and checks the other components of he receiver.
Tte receiver may be, for example, a set top box connected to a television set vith which a user can receive video, audio and other signals. The receiver is also provided

wilii a section selection monitor 29 which generates criteria for selecting information sections. A possible aiterion is the version number of the desired information section. The receiver thereby indicates that it only wants to receive the infonnation section when its version number is higher than the version number as stated in the criterion. Another possible criterion is an instant at which the receiver only wants to receive the information sections made or modified after that instant. Many other criteria are feasible. As will become apparent below, the criteria can be specified in a variety of ways, depending on the type of information that neech to be filtered.
The monitor 29 subsequentiy sends the generated criteria to a trar^mitter via the retimi channel 16. The monitor 29 can also use the return channel 16 to signal to the transmitter that it should stop filtering according to a previously transmitted criterion.
The transmitter shown in Fig. 3 is adapted to transmit a transport stream via a networic interface 34 through the transmission channel 12. In the embodiment shown, the transmitter is provided with an encoder 30 which forms a plurality of elementary streams from presented signals, and a multiplexer 32 which combines the elementary streams and the associated information sections to a transport stream. In another embodiment (not shown) the transmitter 10 receives an already constructed transport stream &om elsewhere and the transmitter 10 only ensures that this transport stream is transmitted to a receiver 14. Then, it is not necessary to include an encoder 30 and a multiplexer 32 in the transmitter 10.
The transmitter is also provided with a control component 36 and a selector 38 which can receive a pluraUty of criteria via the return channel 16. The control component 36 controls and checks the other components of the transmitter. The selector 38 is positioned between the multiplexer 32 and the network interface 34 and only passes infonnation sections that satisfy one or more received criteria.
A filtering criterion may be applied once or multiple times. Using the criterion only once allows for the selection of a single information section. This will be discussed in more detail below. Continuous filtering makes it possible to obtain one or more infoimation sectioiK that satisfy the given criterion until some condition is met, e.g, when the receiver sigials the filtering should stop.
Filtering can be done using various levels of granularity for the criterion. At the minimum, the PID of an elementary stream from which sections are to be filtered needs to be specified. The filtering can be made more specific by adding an identifier for an information section or table which is to be filtered specifically in that elementary stream.

More advanced filtering criteria can be realized using positive and negative filtering. Using positive filtering, only the information that matches the given criterion is selected and transmitted to the recavcr. When using negative filtering, only tiie infonnation that does not match the given criterion satisfies it.
In particular, positive and negative filtering can be realized at the bit level by specifying the criterion as a mask which is to be appHed using a bitwise AND operation to the information section to be filtered. If the output of the ^plication of the mask matches an outcome given in the criterion, the information section matches the criterion. Depending on whether the type of filtering was positive or negative, the section is then selected or filtered out. It may be necessary to indicate in tht criterion an offeet at which to start applying the mask.
In the embodiment shown in the drawing, the resultant transport stream is subsequently transmitted by the network interface 34 to the receiver via the transmission channel 12. In another anbodiment (not shown), the selector 38 ranoves all infonnation sections that do not satisfy one of the received criteria fi-om the transport stream. The information sections that satisfy the criteria are passed on to the network interface 34 which transmits them to the receiver via an additional transmission channel 18.
The selector 38 is preferably arrangwl to mamtain a collection of criteria that have been submitted by one or more receivers previously. The selector 38 can then filter all information sections according to the criteria in the collection. "Hie collection can e.g. be realized using a memory or buffer of some kind on the transmitter.
Receivers can send a revocation request to the selector 38 that a particular criterion should no longer be used. The selector 38 then removes it from the collection. Criteria may also be removed because of other reasons, e.g, because a criterion has a limited lifetime and Ais lifetime has been exceeded.
A criterion may also be ronoved from the collection when it has been used to filter a single infonnation section. The receiver 14 can submit, for instance, a negative filter that filters out all infonnation sections. This way, he can effectively block the transmission of all sections. The receiver 14 can then submit a positive filtering criterion that is to be used only once when he needs the information in a particular section. The transmitter 10 will then filter that section and transmit it to the receiver, and then remove the criterion so no fxalher sections are transmitted. This is a very effective way of saving baidwidth.
8

WE CLAIM :
1. A transmission system for transmitting a multiplex signal from a transmitter (10) to a receiver (14) via a transmission channel (12), in which the muhiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the transmission system is provided with a return channel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) has section selection means (29) for submitting a criterion for filtering information secfions to the transmitter (10) via the return channel (16) and in that the transmitter (10) has section filtering means (38) for filtering information sections according to the submitted criterion and networking means (34) for transmitting the information sections that satisfy the criterion.
2. A transmission system as claimed in claim 1, wherein the section filtering means (38) are arranged for at least one of positive and negative filtering.
3. A transmission system as claimed in claim I, wherein the networking means (34) are arranged for transmitting the selected information sections via an additional transmission channel (18).
4. A transmitter (10) for transmitting a multiplex signal via a transmission channel (12), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, characterized in that the transmitter (10) has section filtering means (38) for filtering information sections according to the submitted criterion and networking means (34) for transmitting information sections that satisfy the criterion.

5. A transmitter (10) as claimed in claim 4, wherein the section filtering means (38) are arranged for at least one of positive and negative filtering.
6. A transmitter (10) as claimed in claim 4, sfiltering means (38) are arranged for adding the submitted filtering criterion to a collection of criteria in response to receiving said submitted filtering criterion.
7. A transmitter (10) as claimed in claim 6, wherein the section filtering means (38) are arranged for removing a criterion from the collection after filtering a single information section that satisfies said criterion
8. A transmitter (10) as claimed in claim 6, wherein the section filtering means (38) are arranged for removing a criterion from the collection when a revocation request is received for said criterion.
9. A receiver (14) for receiving a multiplex signal from a transmitter (10), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the receiver (14) is provided with a connection for a return chaimel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) has section selection means (29) for submitting a criterion for filtering information sections to the transmitter (10) via the return charmel (16).
10. A receiver (14) as claimed in claim 9, wherein the section selection means (29) are arranged for sending a revocation request specifying a particular criterion to the transmitter (10) for causing the transmitter (10) to stop filtering information sections according to the particular criterion.
10

11. A method of transmitting a multiplex signal from a transmitter (10) to a receiver (14) via a transmission channel (12), in which the multiplex signal comprises a number of elementary streams and a plurality of information sections comprising information about the elementary streams, and in which the transmission system is provided with a return charmel (16) from the receiver (14) to the transmitter (10), characterized in that the receiver (14) submits a criterion for filtering information sections to the transmitter (10) via the return channel (16) and in that the transmitter (10) filters information sections according to the submitted criterion and transmits the information sections that satisfy the criterion.

11

Documents:

in-pct-2001-1269-che abstract.pdf

in-pct-2001-1269-che claims duplicate.pdf

in-pct-2001-1269-che claims.pdf

in-pct-2001-1269-che correspondence-others.pdf

in-pct-2001-1269-che correspondence-po.pdf

in-pct-2001-1269-che description (complete) duplicate.pdf

in-pct-2001-1269-che description (complete).pdf

in-pct-2001-1269-che drawings duplicate.pdf

in-pct-2001-1269-che drawings.pdf

in-pct-2001-1269-che form-1.pdf

in-pct-2001-1269-che form-19.pdf

in-pct-2001-1269-che form-26.pdf

in-pct-2001-1269-che form-3.pdf

in-pct-2001-1269-che form-5.pdf

in-pct-2001-1269-che pct.pdf

in-pct-2001-1269-che petition.pdf

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Patent Number

229332

Indian Patent Application Number

IN/PCT/2001/1269/CHE

PG Journal Number

12/2009

Publication Date

20-Mar-2009

Grant Date

16-Feb-2009

Date of Filing

12-Sep-2001

Name of Patentee

KONINKLIJKE PHILIPS ELECTRONICS N.V

Applicant Address

GROENEWOUDSEWEG 1, NL-5621 BA EINDHOVEN,

Inventors:

#	Inventor's Name	Inventor's Address
1	VAN DEN HEUVEL	PROF HOLSTLAAN 6, NL-5621 BA, EINDHOVEN,
2	ROZENDAAL LEENDERT T	PROF HOLSTLAAN 6, NL-5621 AA, EINDHOVEN,
3	VERBERKT MARK II	PROF HOLSTLAAN 6, NL-5621 AA, EINDHOVEN,

PCT International Classification Number

H04N 7/173

PCT International Application Number

PCT/EP00/12982

PCT International Filing date

2000-12-20

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	EP 00200132.9	2000-01-14	EUROPEAN UNION