최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
---|---|
국제특허분류(IPC7판) |
|
출원번호 | US-0468938 (2009-05-20) |
등록번호 | US-8774069 (2014-07-08) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 73 |
Mapping data packets of a first data stream into data fields of a second data stream at several transmitters is provided by generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile recei
Mapping data packets of a first data stream into data fields of a second data stream at several transmitters is provided by generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers in a head-end, where second data packets at the start of a group of consecutively transmitted second data packets contain placeholders into which signaling information is filled. A first data stream is transmitted from the head-end to each transmitter. Each transmitter extracts signaling information from the second data packets indicating in which data slot and in which data sub-frame of a received data frame the second data packet is transferred. Each transmitter inserts synchronization data in a specific data packet in each data slot containing second data packets. The first and second data packets are mapped consecutively into the second data stream.
1. A method for mapping data packets of a first data stream into data fields of a second data stream at several transmitters, comprising: generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated wit
1. A method for mapping data packets of a first data stream into data fields of a second data stream at several transmitters, comprising: generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers in a head-end, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;transmitting said first data stream from said head-end to each of said transmitters;extracting, by each transmitter, said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred;inserting, by each transmitter, synchronization data in a specific data packet in each data slot containing second data packets; andmapping said first and second data packets consecutively into said second data stream,wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 2. The method according to claim 1, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 3. The method according to claim 1, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 4. The method according to claim 1, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 5. The method according to claim 1, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 6. The method according to claim 1, wherein before extracting said signaling information from said second data packet identifying, by each transmitter, the first data packets and second data packets based on the corresponding packet identifier. 7. The method according to claim 1, wherein after extracting said signaling information, decoding said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 8. The method according to claim 1, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 9. The method according to claim 1, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 10. The method according to any of claim 1, wherein said signaling information further includes an ATSC system time associated with each transmitter. 11. The method according to claim 1, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 12. The method according to claim 11, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 13. The method according to claim 1, wherein each specific dummy byte with signaling data in the first two received second data packets are rewritten with a pre-selected value after extracting said signaling information. 14. A system for mapping data packets of a first data stream into data fields of a second data stream at several transmitters, comprising: a head-end operable to generate a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;said head-end further operable to transmit said first data stream to each of said transmitters,wherein each transmitter is operable to extract said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred, insert synchronization data in a specific data packet in each data slot containing second data packets, and map said first and second data packets consecutively into said second data stream,wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 15. The system according to claim 14, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 16. The system according to claim 14, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 17. The system according to claim 14, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 18. The system according to claim 14, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 19. The system according to claim 14, wherein before each transmitter extracts said signaling information from said second data packet identifying, the first data packets and second data packets based on the corresponding packet identifier. 20. The system according to claim 14, further comprising: a decoder operable to decode said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 21. The system according to claim 14, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 22. The system according to claim 14, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 23. The system according to any of claim 14, wherein said signaling information further includes an ATSC system time associated with each transmitter. 24. The system according to claim 14, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 25. The system according to claim 24, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 26. The system according to claim 14, wherein each specific dummy byte with signaling data in the first two received second data packets are rewritten with a pre-selected value after extracting said signaling information. 27. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers in a head-end, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;transmitting said first data stream from said head-end to a plurality of transmitters;extracting, by each transmitter, said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred;inserting, by each transmitter, synchronization data in a specific data packet in each data slot containing second data packets; andmapping said first and second data packets consecutively into a second data stream,wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 28. The non-transitory computer-readable medium according to claim 27, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 29. The non-transitory computer-readable medium according to claim 27, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 30. The non-transitory computer-readable medium according to claim 27, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 31. The non-transitory computer-readable medium according to claim 27, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 32. The non-transitory computer-readable medium according to claim 27, wherein before extracting said signaling information from said second data packet identifying, by each transmitter, the first data packets and second data packets based on the corresponding packet identifier. 33. The non-transitory computer-readable medium according to claim 27, wherein after extracting said signaling information, decoding said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 34. The non-transitory computer-readable medium according to claim 27, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 35. The non-transitory computer-readable medium according to claim 27, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 36. The non-transitory computer-readable medium according to any of claim 27, wherein said signaling information further includes an ATSC system time associated with each transmitter. 37. The non-transitory computer-readable medium according to claim 27, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 38. The non-transitory computer-readable medium according to claim 37, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 39. The non-transitory computer-readable medium according to claim 27, wherein each specific dummy byte with signaling data in the first two received second data packets are rewritten with a pre-selected value after extracting said signaling information. 40. A system for generating an inband signal, comprising: a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data, and transmit the plurality of transport stream packets including the signaling data over a communications link; anda post-processor in communication with the pre-processor through the communications link, configured to receive the plurality of transport stream packets including the signaling data, decode the signaling data, and identify at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 41. The system of claim 40, wherein the post-processor is further configured to replace the signaling data with original values of the plurality of specific dummy bytes received by the pre-processor. 42. A method for using a mobile/handheld system to carry signaling information, comprising: receiving, by a pre-processor, a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link;receiving, by a post-processor, the plurality of transport stream packets including the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 43. The method of claim 42, further comprising: replacing, by the post-processor, the signaling data with original values of the plurality of specific dummy bytes obtained by the pre-processor. 44. A method for causing a pre-processor to generate an inband signal, comprising: receiving a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link to a post-processor configured to receive the plurality of transport stream packets including the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 45. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: receiving a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link to a post-processor configured to receive the plurality of transport stream packets including the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 46. A method for causing a post-processor to process an inband signal, comprising: receiving, from a communications link, a plurality of transport stream packets including signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein the plurality of transport stream packets including signaling data is generated by a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with the signaling data, and transmit the plurality of transport stream packets including the signaling data onto a communications link,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 47. The method of claim 46, further comprising: replacing the signaling data with original values of the plurality of specific dummy bytes. 48. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: receiving, from a communications link, a plurality of transport stream packets including signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein the plurality of transport stream packets including signaling data is generated by a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with the signaling data, and transmit the plurality of transport stream packets including the signaling data onto a communications link,wherein a number of received transport stream packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each transport stream packet, andwherein a number of transport stream packets containing a dummy data packet is inserted in a data slot corresponding to the number of lost transport stream packets in an ATSC-M/H group of said data slot. 49. The non-transitory computer-readable medium of claim 48, having stored thereon instructions which cause the computer system to perform: replacing the signaling data with original values of the plurality of specific dummy bytes obtained by the pre-processor. 50. A method for mapping data packets of a first data stream into data fields of a second data stream at several transmitters, comprising: generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers in a head-end, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;transmitting said first data stream from said head-end to each of said transmitters;extracting, by each transmitter, said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred;inserting, by each transmitter, synchronization data in a specific data packet in each data slot containing second data packets; andmapping said first and second data packets consecutively into said second data stream,wherein each specific dummy byte with signaling data in the first two received second data packets is rewritten with a pre-selected value after extracting said signaling information. 51. The method according to claim 50, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 52. The method according to claim 50, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 53. The method according to claim 50, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 54. The method according to claim 50, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 55. The method according to claim 50, wherein before extracting said signaling information from said second data packet identifying, by each transmitter, the first data packets and second data packets based on the corresponding packet identifier. 56. The method according to claim 50, wherein after extracting said signaling information, decoding said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 57. The method according to claim 50, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 58. The method according to claim 50, wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 59. The method according to claim 50, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 60. The method according to any of claim 50, wherein said signaling information further includes an ATSC system time associated with each transmitter. 61. The method according to claim 50, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 62. The method according to claim 61, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 63. A system for mapping data packets of a first data stream into data fields of a second data stream at several transmitters, comprising: a head-end operable to generate a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;said head-end further operable to transmit said first data stream to each of said transmitters,wherein each transmitter is operable to extract said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred, insert synchronization data in a specific data packet in each data slot containing second data packets, and map said first and second data packets consecutively into said second data stream, andwherein each specific dummy byte with signaling data in the first two received second data packets is rewritten with a pre-selected value after extracting said signaling information. 64. The system according to claim 63, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 65. The system according to claim 63, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 66. The system according to claim 63, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 67. The system according to claim 63, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 68. The system according to claim 63, wherein before each transmitter extracts said signaling information from said second data packet identifying, the first data packets and second data packets based on the corresponding packet identifier. 69. The system according to claim 63, further comprising: a decoder operable to decode said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 70. The system according to claim 63, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 71. The system according to claim 63, wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 72. The system according to claim 63, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 73. The system according to any of claim 63, wherein said signaling information further includes an ATSC system time associated with each transmitter. 74. The system according to claim 63, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 75. The system according to claim 74, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 76. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: generating a first data stream with first data packets containing data associated with stationary receivers and second data packets containing data associated with mobile receivers in a head-end, whereby second data packets at the start of a group of consecutively transmitted second data packets contain specific dummy bytes into which signaling information is filled;transmitting said first data stream from said head-end to a plurality of transmitters;extracting, by each transmitter, said signaling information from said second data packets indicating in which data slot and in which data sub-frame of a received data frame said second data packet is transferred;inserting, by each transmitter, synchronization data in a specific data packet in each data slot containing second data packets; andmapping said first and second data packets consecutively into a second data stream,wherein each specific dummy byte with signaling data in the first two received second data packets is rewritten with a pre-selected value after extracting said signaling information. 77. The non-transitory computer-readable medium according to claim 76, wherein said specific data packet with synchronization data at the start of a received data frame is positioned at the start of an odd-numbered data field in said second data stream. 78. The non-transitory computer-readable medium according to claim 76, wherein said specific data packet with synchronization data in a data slot at an even-numbered position in a data frame is mapped to the first data packet of a data field in said second data stream. 79. The non-transitory computer-readable medium according to claim 76, wherein said specific data packet with synchronizing data in a data slot at an odd-numbered position in a received data frame is mapped to the 157th data packet of a data field in said second data stream. 80. The non-transitory computer-readable medium according to claim 76, wherein said first data stream comprises ATSC data frames and said second data stream includes VSB data fields and an ATSC-M/H group including 118 consecutively positioned second data packets in a data slot, the second data packets having data associated with mobile receivers. 81. The non-transitory computer-readable medium according to claim 76, wherein before extracting said signaling information from said second data packet identifying, by each transmitter, the first data packets and second data packets based on the corresponding packet identifier. 82. The non-transitory computer-readable medium according to claim 76, wherein after extracting said signaling information, decoding said signaling information using a cycle redundancy check information transmitted at the end of said signaling information to determine a correct transmission of said signaling information. 83. The non-transitory computer-readable medium according to claim 76, wherein the specific data packet in each data slot in which synchronizing information is inserted is the 38th data packet of the data slot. 84. The non-transitory computer-readable medium according to claim 76, wherein a number of received second data packets of an ATSC-M/H group is checked for completeness using a continuity counter in a header of each second data packet, andwherein a number of second data packets containing a dummy data packet is inserted in said data slot corresponding to the number of lost second data packets in an ATSC-M/H group of said data slot. 85. The non-transitory computer-readable medium according to claim 76, wherein the number of received first data packets of a data slot is checked for completeness, andwherein a number of first data packets containing dummy data packets is inserted in said data slot corresponding to the number of lost first data packets in said data slot. 86. The non-transitory computer-readable medium according to any of claim 76, wherein said signaling information further includes an ATSC system time associated with each transmitter. 87. The non-transitory computer-readable medium according to claim 76, wherein said signaling information contains an information for switching each transmitter from a first operation mode in which data for mobile and stationary receivers are transmitted to a second operation mode in which only data for stationary receivers are transmitted. 88. The non-transitory computer-readable medium according to claim 87, wherein after receiving a specific number of data frames of the first data stream without any identified second data packets, each transmitter is switched to said second operation mode. 89. A system for generating an inband signal, comprising: a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data, and transmit the plurality of transport stream packets including the signaling data over a communications link; anda post-processor in communication with the pre-processor through the communications link, configured to receive the plurality of transport stream packets including the signaling data, extract the signaling data, decode the signaling data, and identify at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 90. The system of claim 89, wherein the post-processor is further configured to replace the signaling data with original values of the plurality of specific dummy bytes received by the pre-processor. 91. A method for using a mobile/handheld system to carry signaling information, comprising: receiving, by a pre-processor, a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link;receiving, by a post-processor, the plurality of transport stream packets including the signaling data;extracting the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 92. The method of claim 91, further comprising: replacing, by the post-processor, the signaling data with original values of the plurality of specific dummy bytes obtained by the pre-processor. 93. A method for causing a pre-processor to generate an inband signal, comprising: receiving a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link to a post-processor configured to receive the plurality of transport stream packets including the signaling data;extracting the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 94. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: receiving a plurality of transport stream packets;replacing a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with signaling data;transmitting the plurality of transport stream packets including the signaling data over a communications link to a post-processor configured to receive the plurality of transport stream packets including the signaling data;extracting the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 95. A method for causing a post-processor to process an inband signal, comprising: receiving, from a communications link, a plurality of transport stream packets including signaling data;extracting the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein the plurality of transport stream packets including signaling data is generated by a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with the signaling data, and transmit the plurality of transport stream packets including the signaling data onto a communications link, andwherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 96. The method of claim 95, further comprising: replacing the signaling data with original values of the plurality of specific dummy bytes. 97. A non-transitory computer-readable medium having stored thereon sequences of instructions, the sequences of instructions including instructions which when executed by a computer system causes the computer system to perform: receiving, from a communications link, a plurality of transport stream packets including signaling data;extracting the signaling data;decoding the signaling data; andidentifying at least one of a location of a mobile/handheld group, a subframe of the mobile/handheld group, and a slot number of the mobile/handheld group, based on the signaling data,wherein the plurality of transport stream packets including signaling data is generated by a pre-processor configured to receive a plurality of transport stream packets, replace a plurality of specific dummy bytes of one or more of the plurality of transport stream packets with the signaling data, and transmit the plurality of transport stream packets including the signaling data onto a communications link, andwherein each specific dummy byte with signaling data in the first two received transport stream packets is rewritten with a pre-selected value after extracting said signaling data. 98. The non-transitory computer-readable medium of claim 97, having stored thereon instructions which cause the computer system to perform: replacing the signaling data with original values of the plurality of specific dummy bytes obtained by the pre-processor.
Copyright KISTI. All Rights Reserved.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.