JP2013123139A5 - - Google Patents

Claims (18)

  A terminal apparatus that communicates with a base station apparatus using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of receiving the localized EPDCCH,
  An antenna port used for demodulation of a signal arranged in the ECCE based on an ECCE (Enhanced Control Channel Element) number in which an EPDCCH signal is arranged and RRC (Radio Resource Control) signaling transmitted from the base station apparatus A terminal device characterized by having a control unit for setting.   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
  A reference signal corresponding to the first antenna port or the second antenna port is used for demodulation of signals arranged in the first ECCE and the second ECCE,
  A reference signal corresponding to the third antenna port or the fourth antenna port is used for demodulation of signals arranged in the third ECCE and the fourth ECCE,
  The control unit uses a reference signal corresponding to the first antenna port for demodulation of signals arranged in the first ECCE and the second ECCE, or a reference corresponding to the second antenna port. Whether to use a signal is set based on RRC signaling, and a reference signal corresponding to the third antenna port is used to demodulate signals arranged in the third ECCE and the fourth ECCE, or the fourth ECC The terminal apparatus according to claim 1, wherein whether to use a reference signal corresponding to an antenna port is set based on the RRC signaling.   RRC signaling associated with the first antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC. The third antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE,
  RRC signaling associated with the second antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC The terminal apparatus according to claim 2, wherein the fourth antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE.   A base station device that communicates with a terminal device using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of transmitting the localized EPDCCH,
  Based on the ECCE (Enhanced Control Channel Element) number where the EPDCCH signal is arranged and the RRC (Radio Resource Control) signaling notified to the terminal device, an antenna port used for transmission of the signal arranged in the ECCE is set. A base station apparatus comprising a radio resource control unit.   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
  A first antenna port or a second antenna port is used to transmit signals arranged in the first ECCE and the second ECCE;
  A third antenna port or a fourth antenna port is used for transmitting signals arranged in the third ECCE and the fourth ECCE;
  The radio resource control unit uses RRC signaling to determine whether to use the first antenna port or the second antenna port for transmission of signals arranged in the first ECCE and the second ECCE. Based on the RRC signaling, it is set whether to use the third antenna port or the fourth antenna port for transmission of signals arranged in the third ECCE and the fourth ECCE. The base station apparatus according to claim 4, wherein:   RRC signaling associated with the first antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. The third antenna port is associated as an antenna port used for transmission of a signal disposed in
  RRC signaling associated with the second antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. The base station apparatus according to claim 5, wherein the fourth antenna port is associated as an antenna port used for transmission of a signal arranged in the base station.   A communication method of a terminal apparatus that communicates with a base station apparatus using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of receiving the localized EPDCCH,
  An antenna port used for demodulation of a signal arranged in the ECCE based on an ECCE (Enhanced Control Channel Element) number in which an EPDCCH signal is arranged and RRC (Radio Resource Control) signaling transmitted from the base station apparatus The communication method characterized by setting.   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
  A reference signal corresponding to the first antenna port or the second antenna port is used for demodulation of signals arranged in the first ECCE and the second ECCE,
  A reference signal corresponding to the third antenna port or the fourth antenna port is used for demodulation of signals arranged in the third ECCE and the fourth ECCE,
  The terminal apparatus uses a reference signal corresponding to the first antenna port for demodulation of signals arranged in the first ECCE and the second ECCE, or a reference corresponding to the second antenna port. Whether to use a signal is set based on RRC signaling, and a reference signal corresponding to the third antenna port is used to demodulate signals arranged in the third ECCE and the fourth ECCE, or the fourth ECC The communication method according to claim 7, wherein whether to use a reference signal corresponding to an antenna port is set based on the RRC signaling.   RRC signaling associated with the first antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC. The third antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE,
  RRC signaling associated with the second antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC The communication method according to claim 8, wherein the fourth antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE.   A communication method of a base station apparatus that communicates with a terminal apparatus using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of transmitting the localized EPDCCH,
  Based on the ECCE (Enhanced Control Channel Element) number where the EPDCCH signal is arranged and the RRC (Radio Resource Control) signaling notified to the terminal device, an antenna port used for transmission of the signal arranged in the ECCE is set. A communication method characterized by the above.   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
  A first antenna port or a second antenna port is used to transmit signals arranged in the first ECCE and the second ECCE;
  A third antenna port or a fourth antenna port is used for transmitting signals arranged in the third ECCE and the fourth ECCE;
  The base station apparatus determines whether to use the first antenna port or the second antenna port for transmission of signals arranged in the first ECCE and the second ECCE based on RRC signaling. And setting whether to use the third antenna port or the fourth antenna port for transmission of signals arranged in the third ECCE and the fourth ECCE based on the RRC signaling The communication method according to claim 10.   RRC signaling associated with the first antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. The third antenna port is associated as an antenna port used for transmission of a signal disposed in
RRC signaling associated with the second antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. The communication method according to claim 11, wherein the fourth antenna port is associated as an antenna port used for transmission of a signal arranged in the network.   An integrated circuit mounted on a terminal device that communicates with a base station device using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of receiving the localized EPDCCH,
  An antenna port used for demodulation of a signal arranged in the ECCE based on an ECCE (Enhanced Control Channel Element) number in which an EPDCCH signal is arranged and RRC (Radio Resource Control) signaling transmitted from the base station apparatus An integrated circuit that causes the terminal device to exhibit a series of functions including a function of setting   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
  A reference signal corresponding to the first antenna port or the second antenna port is used for demodulation of signals arranged in the first ECCE and the second ECCE,
  A reference signal corresponding to the third antenna port or the fourth antenna port is used for demodulation of signals arranged in the third ECCE and the fourth ECCE,
  The integrated circuit uses a reference signal corresponding to the first antenna port for demodulation of signals arranged in the first ECCE and the second ECCE, or a reference corresponding to the second antenna port. Whether to use a signal is set based on RRC signaling, and a reference signal corresponding to the third antenna port is used to demodulate signals arranged in the third ECCE and the fourth ECCE, or the fourth ECC The integrated circuit according to claim 13, wherein the terminal device is caused to exhibit a function of setting whether to use a reference signal corresponding to an antenna port based on the RRC signaling.   RRC signaling associated with the first antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC. The third antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE,
  RRC signaling associated with the second antenna port as an antenna port of a reference signal used for demodulation of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECC The integrated circuit according to claim 14, wherein the fourth antenna port is associated as an antenna port of a reference signal used for demodulation of a signal arranged in the ECCE.   An integrated circuit mounted on a base station device that communicates with a terminal device using EPDCCH (Enhanced Physical Downlink Control CHannel),
  In the process of transmitting the localized EPDCCH,
  Based on the ECCE (Enhanced Control Channel Element) number where the EPDCCH signal is arranged and the RRC (Radio Resource Control) signaling notified to the terminal device, an antenna port used for transmission of the signal arranged in the ECCE is set. An integrated circuit characterized by causing the base station apparatus to exhibit a series of functions including functions.   A first ECCE, a second ECCE, a third ECCE, and a fourth ECCE are configured using resources obtained by dividing one PRB pair (Physical Resource Block pair),
  The numbers of the first ECCE, the second ECCE, the third ECCE, and the fourth ECCE are consecutive,
A first antenna port or a second antenna port is used to transmit signals arranged in the first ECCE and the second ECCE;
  A third antenna port or a fourth antenna port is used for transmitting signals arranged in the third ECCE and the fourth ECCE;
  The integrated circuit sets based on RRC signaling whether to use the first antenna port or the second antenna port for transmission of signals arranged in the first ECCE and the second ECCE. A function to set whether to use the third antenna port or the fourth antenna port for transmission of signals arranged in the third ECCE and the fourth ECCE based on the RRC signaling The integrated circuit according to claim 16, wherein the base station apparatus exhibits the function.   RRC signaling associated with the first antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. The third antenna port is associated as an antenna port used for transmission of a signal disposed in
  RRC signaling associated with the second antenna port as an antenna port used for transmission of signals arranged in the first ECCE and the second ECCE is the third ECCE and the fourth ECCE. 18. The integrated circuit according to claim 17, wherein the fourth antenna port is associated as an antenna port used for transmission of a signal arranged in the network.