AMENDMENTS TO THE CLAIMS
`
`1. (Previously Presented) A transmission method comprising:
`
`generating a frame for transfer in which one or more first internet protocol (IP) packets
`
`and one or more second IP packets are stored, the one or more first IP packets storing content,
`
`and each of the one or more second IP packets including first reference clock information which
`
`indicates a time for playing back the content; and
`
`transmitting the generated frame through broadcasting including attaching, to each of the
`
`one or more first IP packets and each of the one or more second IP packets, a context identifier
`
`indicating a preset fixed value in accordance with a type of an IP data flow,
`
`wherein second reference clock information is stored in control information in a physical
`
`layer and the control information is transmitted, and
`
`in the generating, header compression is performed on the one or more first IP packets
`
`and the header compression is not performed on the one or more second IP packets.
`
`2. (Previously Presented) The transmission method according to claim 1,
`
`wherein in the generating, the header compression includes: (i) attaching, to a part of the
`
`one or more first IP packets, a full header which includes specification information for
`
`specifying an IP data flow to which the one or more first IP packets belong; and (ii) attaching, to
`
`a first IP packet other than the part of the one or more first IP packets, a compressed header
`
`which does not include the specification information.
`
`3. (Previously Presented) The transmission method according to claim 1,
`
`wherein the reference clock information complies with a network time protocol (NTP).
`
`4. (Previously Presented) The transmission method according to claim 1,
`
`wherein the content is stored in an MPEG media transport (MMT) packet in each of the
`
`one or more first IP packets.
`
`5. (Previously Presented) The transmission method according to claim 1,
`
`wherein the frame includes one or more second transfer units, each having a fixed length,
`
`
`
`1. (Previously Presented) A transmission method comprising:
`
`generating a frame for transfer in which one or more first internet protocol (IP) packets
`
`and one or more second IP packets are stored, the one or more first IP packets storing content,
`
`and each of the one or more second IP packets including first reference clock information which
`
`indicates a time for playing back the content; and
`
`transmitting the generated frame through broadcasting including attaching, to each of the
`
`one or more first IP packets and each of the one or more second IP packets, a context identifier
`
`indicating a preset fixed value in accordance with a type of an IP data flow,
`
`wherein second reference clock information is stored in control information in a physical
`
`layer and the control information is transmitted, and
`
`in the generating, header compression is performed on the one or more first IP packets
`
`and the header compression is not performed on the one or more second IP packets.
`
`2. (Previously Presented) The transmission method according to claim 1,
`
`wherein in the generating, the header compression includes: (i) attaching, to a part of the
`
`one or more first IP packets, a full header which includes specification information for
`
`specifying an IP data flow to which the one or more first IP packets belong; and (ii) attaching, to
`
`a first IP packet other than the part of the one or more first IP packets, a compressed header
`
`which does not include the specification information.
`
`3. (Previously Presented) The transmission method according to claim 1,
`
`wherein the reference clock information complies with a network time protocol (NTP).
`
`4. (Previously Presented) The transmission method according to claim 1,
`
`wherein the content is stored in an MPEG media transport (MMT) packet in each of the
`
`one or more first IP packets.
`
`5. (Previously Presented) The transmission method according to claim 1,
`
`wherein the frame includes one or more second transfer units, each having a fixed length,
`
`
`
`each of the one or more second transfer units includes one or more first transfer units, and
`
`each of the one or more first transfer units includes one of: the one or more first IP
`
`packets, and the one or more second IP packets.
`
`6. (Previously Presented) The transmission method according to claim 5,
`
`wherein each of the one or more first transfer units is a type length value (TLV) packet,
`
`each of the one or more second transfer units is a slot defined under a transmission
`
`system for advanced wide band satellite digital broadcasting, and
`
`the frame is a transfer slot defined under the transmission system for advanced wide band
`
`satellite digital broadcasting.
`
`7. (Previously Presented) A reception method comprising:
`
`receiving, through broadcasting, a frame for transfer in which one or more internet
`
`protocol (IP) packets are stored, the one or more IP packets storing content and including: one or
`
`more first IP packets whose headers have been compressed; and one or more second IP packets
`
`whose headers have not been compressed, each of the one or more second IP packets including
`
`first reference clock information which indicates a time for playing back the content;
`
`determining whether each of the one or more IP packets that are received is the first 1P
`
`packet or the second IP packet based on whether or not a header of the IP packet has been
`
`compressed, and a type of an IP data flow according to a preset fixed value indicated in a context
`
`identifier attached to each of the one or more first IP packets and each of the one or more second
`
`IP packets, and
`
`playing back the content stored in the one or more first IP packets, using the reference
`
`clock information stored in the each of the one or more second IP packets, based on a result of
`
`the determination,
`
`wherein second reference clock information is stored in control information in a physical
`
`layer and the control information is received.
`
`8. (Previously Presented) The reception method according to claim 7,
`
`wherein the header compression includes: (i) attaching, to a part of the one or more first IP
`
`packets, a full header which includes specification information for specifying an IP data flow to
`
`
`
`which the one or more first IP packets belong; and (ii) attaching, to a first IP packet other than
`
`the part of the one or more first IP packets, a compressed header which does not include the
`
`specification information.
`
`9. (Previously Presented) The reception method according to claim 7,
`
`wherein the reference clock information complies with a network time protocol (NTP).
`
`10. (Previously Presented) The reception method according to claim 7,
`
`wherein the content is stored in an MPEG media transport (MMT) packet in each of the
`
`one or more first IP packets.
`
`11. (Previously Presented) The reception method according to claim 7,
`
`wherein the frame includes one or more second transfer units, each having a fixed length,
`
`each of the one or more second transfer units includes one or more first transfer units, and
`
`each of the one or more first transfer units includes one of: the one or more first IP
`
`packets, and the one or more second IP packets.
`
`12. (Previously Presented) The reception method according to claim 11,
`
`wherein each of the one or more first transfer units is a type length value (TLV) packet,
`
`each of the one or more second transfer units is a slot defined under a transmission
`
`system for advanced wide band satellite digital broadcasting, and
`
`the frame is a transfer slot defined under the transmission system for advanced wide band
`
`satellite digital broadcasting.
`
`13. (Previously Presented) A transmission apparatus comprising:
`
`a non-transitory memory configured to store one or more programs, and
`
`a processor configured to execute the one or more programs and cause the transmission
`
`apparatus to operate as:
`
`a generator which generates a frame for transfer in which one or more first intemet
`
`protocol (IP) packets and one or more second IP packets are stored, the one or more first 1P
`
`
`
`packets storing content, and each of the one or more second IP packets including first reference
`
`clock information which indicates a time for playing back the content; and
`
`a transmitter which transmits the generated frame through broadcasting including
`
`attaching, to each of the one or more first IP packets and each of the one or more second IP
`
`packets, a context identifier indicating a preset fixed value in accordance with a type of an IP
`
`data flow,
`
`wherein second reference clock information is stored in control information in a physical
`
`layer and the control information is transmitted, and
`
`the generator performs header compression on the one or more first IP packets and does
`
`not perform the header compression on the one or more second IP packets.
`
`14. (Previously Presented) A reception apparatus comprising:
`
`a non-transitory memory configured to store one or more programs; and
`
`a processor configured to execute the one or more programs and cause the reception
`
`apparatus to operate as:
`
`a receiver which receives, through broadcasting, a frame for transfer in which one or
`
`more internet protocol (IP) packets are stored, the one or more IP packets storing content and
`
`including: one or more first IP packets whose headers have been compressed, and one or more
`
`second IP packets whose headers have not been compressed, each of the one or more second IP
`
`packets including first reference clock information which indicates a time for playing back the
`
`content,
`
`a determiner which determines whether each of the one or more IP packets that are
`
`received is the first IP packet or the second IP packet based on whether or not a header of the 1P
`
`packet has been compressed, and a type of an IP data flow according to a preset fixed value
`
`indicated in a context identifier attached to each of the one or more first IP packets and each of
`
`the one or more second IP packets, and
`
`a playback unit which plays back the content stored in the one or more first IP packets,
`
`using the reference clock information stored in the each of the one or more second IP packets,
`
`based on a result of the determination,
`
`wherein second reference clock information is stored in control information in a physical
`
`layer and the control information is received.
`
`
`
`15. (New) The transmission method according to 5,
`
`wherein the second reference clock information is stored in a header of the second
`
`transfer unit.
`
`16. (New) The reception method according to claim 11,
`
`wherein the second reference clock information is stored in a header of the second
`
`transfer unit.
`
`
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