1. A radio communication system comprising:
a mobile station apparatus configured to transmit a first reference signal and a second reference signal to a base station apparatus, wherein
the base station apparatus is configured to transmit to the mobile station apparatus information indicating a first parameter PSRS � OFFSET (0), information indicating a second parameter PSRS � OFFSET (1), information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal, and wherein
the mobile station apparatus is configured to:
set a first transmit power PSRS for transmission of the first reference signal using the first parameter PSRS � OFFSET (0), and a second transmit power PSRS for transmission of the second reference signal using the second parameter PSRS � OFFSET (1),
transmit the first reference signal to the base station apparatus with the first transmit power PSRS using the first radio resource based on the information indicating the first radio resource, and
transmit the second reference signal to the base station apparatus with the second transmit power PSRS using the second radio resource upon having received the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
2. A mobile station apparatus that is configured to transmit a first reference signal and a second reference signal to a base station apparatus, the mobile station apparatus comprising:
a reception unit configured to receive from the base station apparatus information indicating a first parameter PSRS � OFFSET (0), information indicating a second parameter PSRS � OFFSET (1), information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal,
a control unit configured to set a first transmit power PSRS for transmission of the first reference signal using the first parameter PSRS � OFFSET (0), and a second transmit power PSRS for transmission of the second reference signal using the second parameter PSRS � OFFSET (1),
a transmission unit configured to transmit the first reference signal to the base station apparatus with the first transmit power PSRS using the first radio resource based on the information indicating the first radio resource, and
the transmission unit configured to transmit the second reference signal to the base station apparatus with the second transmit power PSRS using the second radio resource upon having received the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
3. The mobile station apparatus according to claim 2, comprising
a plurality of transmission antenna ports, wherein the first transmit power PSRS and the second transmit power PSRS are set for each of the transmission antenna ports.
4. A base station apparatus that is configured to receive a first reference signal and a second reference signal transmitted from a mobile station apparatus, the base station apparatus comprising:
a transmission unit configured to transmit to the mobile station apparatus information indicating a first parameter PSRS � OFFSET (0) used for setting of a first transmit power PSRS for transmission of the first reference signal, information indicating a second parameter PSRS � OFFSET (1) used for setting of a second transmit power PSRS for transmission of the second reference signal, information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal,
a reception unit configured to receive in the first radio resource the first reference signal transmitted from the mobile station apparatus with the first transmit power PSRS based on the information indicating the first radio resource, and
the reception unit configured to receive in the second radio resource the second reference signal transmitted from the mobile station apparatus with the second transmit power PSRS upon having transmitted the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
5. A radio communication method used for a mobile station apparatus which is configured to transmit a first reference signal and a second reference signal to a base station apparatus, the radio communication method comprising:
receiving from the base station apparatus information indicating a first parameter PSRS � OFFSET (0), information indicating a second parameter PSRS � OFFSET (1), information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal,
setting a first transmit power PSRS for transmission of the first reference signal using the first parameter PSRS � OFFSET (0), and a second transmit power PSRS for transmission of the second reference signal using the second parameter PSRS � OFFSET (1),
transmitting the first reference signal to the base station apparatus with the first transmit power PSRS using the first radio resource based on the information indicating the first radio resource, and
transmitting the second reference signal to the base station apparatus with the second transmit power PSRS using the second radio resource upon having received the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
6. A radio communication method used for a base station apparatus which is configured to receive a first reference signal and a second reference signal transmitted from a mobile station apparatus, the radio communication method comprising:
transmitting to the mobile station apparatus information indicating a first parameter PSRS � OFFSET (0) used for setting of a first transmit power PSRS for transmission of the first reference signal, information indicating a second parameter PSRS � OFFSET (1) used for setting of a second transmit power PSRS for transmission of the second reference signal, information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal,
receiving in the first radio resource the first reference signal transmitted from the mobile station apparatus with the first transmit power PSRS based on the information indicating the first radio resource, and
receiving in the second radio resource the second reference signal transmitted from the mobile station apparatus with the second transmit power PSRS upon having transmitted the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
7. An integrated circuit which causes a mobile station apparatus to exhibit a plurality of functions by being mounted in the mobile station apparatus that is configured to transmit a first reference signal and a second reference signal to a base station apparatus, the integrated circuit causing the mobile station apparatus to exhibit a series of functions including functions of:
receiving from the base station apparatus information indicating a first parameter PSRS � OFFSET (0), information indicating a second parameter PSRS � OFFSET (1), information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal;
setting a first transmit power PSRS for transmission of the first reference signal using the first parameter PSRS � OFFSET (0), and a second transmit power PSRS for transmission of the second reference signal using the second parameter PSRS � OFFSET (1);
transmitting the first reference signal to the base station apparatus with the first transmit power PSRS using the first radio resource based on the information indicating the first radio resource; and
transmitting the second reference signal to the base station apparatus with the second transmit power PSRS using the second radio resource upon having received the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
8. An integrated circuit which causes a base station apparatus to exhibit a plurality of functions by being mounted in the base station apparatus that is configured to receive a first reference signal and a second reference signal transmitted from a mobile station apparatus, the integrated circuit causing the base station apparatus to exhibit a series of functions including functions of:
transmitting to the mobile station apparatus information indicating a first parameter PSRS � OFFSET (0) used for setting of a first transmit power PSRS for transmission of the first reference signal, information indicating a second parameter PSRS � OFFSET (1) used for setting of a second transmit power PSRS for transmission of the second reference signal, information indicating a first radio resource, information indicating a second radio resource, and information requesting transmission of the second reference signal;
receiving in the first radio resource the first reference signal transmitted from the mobile station apparatus with the first transmit power PSRS based on the information indicating the first radio resource; and
receiving in the second radio resource the second reference signal transmitted from the mobile station apparatus with the second transmit power PSRS upon having transmitted the information requesting transmission of the second reference signal via a physical downlink control channel, wherein
the first transmit power PSRS and the second transmit power PSRS are calculated by
PSRS=min{PCMAX, PSRS � OFFSET (k)+PPC}, wherein
for the transmission of the first reference signal then k=0 based on higher layer signaling,
for the transmission of the second reference signal then k=1 based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being PSRS � OFFSET (k)+PPC,
PCMAX is a maximum transmit power value, and
wherein PPC includes at least one power control parameter, and is indicative of transmission bandwidth, values for transmit power, path loss, and is further based on transmit power control commands.
9. A radio communication method used for a mobile station apparatus, the radio communication method comprising:
transmitting a first reference signal or a second reference signal to a base station apparatus, wherein a transmit power PSRS for a transmission of the first reference signal and a transmit power PSRS for a transmission of the second reference signal is set using a following formula
when PSRS � OFFSET (k) is defined as a value specified by a higher layer,
PSRS � OFFSET (0) is defined as a value with respect to the first reference signal transmitted to the base station apparatus using a first radio resource notified by the base station apparatus using a radio resource control signal,
PSRS � OFFSET (1) is defined as a value with respect to the second reference signal transmitted to the base station apparatus using a second radio resource which has been notified by the base station apparatus and by which the second reference signal is transmittable upon having received downlink control information requesting transmission of the second reference signal via a physical downlink control channel,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is defined as a maximum transmit power value,
PO � PUSCH is defined as a value specified by the higher layer,
MSRS is defined as the number of physical resource blocks used for transmission of the first reference signal or the second reference signal,
PL is defined as a downlink path loss calculated by the mobile station apparatus,
? is defined as a coefficient specified by the higher layer, and
f(i) is defined as a value calculated based on a transmit power control command transmitted via a physical downlink control channel by the base station apparatus
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.
10. A mobile station apparatus, comprising:
a reception unit configured to receive information indicating PSRS � OFFSET (0) and information indicating PSRS � OFFSET (1) from a base station apparatus,
a control unit configured to set a transmit power PSRS for a transmission of a first reference signal and a transmit power PSRS for a transmission of a second reference signal using a following formula,
a transmission unit configured to transmit the first reference signal and to transmit the second reference signal to the base station apparatus, wherein
PSRS � OFFSET (k) is configured for k=0 and k=1 by a higher layer,
k=0 for the transmission of the first reference signal which is triggered based on higher layer signaling,
k=1 for the transmission of the second reference signal which is triggered based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is a maximum transmit power value,
PO � PUSCH is configured by the higher layer,
MSRS corresponds to a bandwidth of the transmission of the first reference signal or the second reference signal,
PL is a path loss which is calculated,
? is configured by the higher layer, and
f(i) is a value based on a transmit power control command
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.
11. The mobile station apparatus according to claim 10, wherein
the path loss is calculated by a downlink signal.
12. The mobile station apparatus according to claim 10, wherein
the first reference signal is a periodic sounding reference signal and the second reference signal is an aperiodic sounding reference signal.
13. An integrated circuit that is mounted in a mobile station apparatus configured for:
receiving information indicating PSRS � OFFSET (0) and information indicating PSRS � OFFSET (1) from a base station apparatus,
setting a transmit power PSRS for a transmission of a first reference signal and a transmit power PSRS for a transmission of a second reference signal using a following formula,
transmitting the first reference signal and transmitting the second reference signal to the base station apparatus, wherein
PSRS � OFFSET (k) is configured for k=0 and k=1 by a higher layer,
k=0 for the transmission of the first reference signal which is triggered based on higher layer signaling,
k=1 for the transmission of the second reference signal which is triggered based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is a maximum transmit power value,
PO � PUSCH is configured by the higher layer,
MSRS corresponds to a bandwidth of the transmission of the first reference signal or the second reference signal,
PL is a path loss which is calculated,
? is configured by the higher layer, and
f(i) is a value based on a transmit power control command
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.
14. The integrated circuit according to claim 13, wherein
the path loss is calculated by a downlink signal.
15. A base station apparatus, comprising:
a transmission unit configured to transmit information indicating PSRS � OFFSET (0) and information indicating PSRS � OFFSET (1) to a mobile station apparatus,
a reception unit configured to receive the first reference signal and to receive the second reference signal from the mobile station apparatus, wherein
a transmit power PSRS for a transmission of a first reference signal and a transmit power PSRS for a transmission of a second reference signal is set based on a following formula,
PSRS � OFFSET (k) is configured for k=0 and k=1 by a higher layer,
k=0 for the transmission of the first reference signal which is triggered based on higher layer signaling,
k=1 for the transmission of the second reference signal which is triggered based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is a maximum transmit power value,
PO � PUSCH is configured by the higher layer,
MSRS corresponds to a bandwidth of the transmission of the first reference signal or the second reference signal,
PL is a path loss which is calculated,
? is configured by the higher layer, and
f(i) is a value based on a transmit power control command
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.
16. A wireless communication method in a base station apparatus, comprising:
transmitting information indicating PSRS � OFFSET (0) and information indicating PSRS � OFFSET (1) to a mobile station apparatus,
receiving the first reference signal and receiving the second reference signal from the mobile station apparatus, wherein
a transmit power PSRS for a transmission of a first reference signal and a transmit power PSRS for a transmission of a second reference signal is set based on a following formula,
PSRS � OFFSET (k) is configured for k=0 and k=1 by a higher layer,
k=0 for the transmission of the first reference signal which is triggered based on higher layer signaling,
k=1 for the transmission of the second reference signal which is triggered based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is a maximum transmit power value,
PO � PUSCH is configured by the higher layer,
MSRS corresponds to a bandwidth of the transmission of the first reference signal or the second reference signal,
PL is a path loss which is calculated,
? is configured by the higher layer, and
f(i) is a value based on a transmit power control command
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.
17. An integrated circuit that is mounted in a base station apparatus configured for:
transmitting information indicating PSRS � OFFSET (0) and information indicating PSRS � OFFSET (1) to a mobile station apparatus,
receiving the first reference signal and receiving the second reference signal from the mobile station apparatus, wherein
a transmit power PSRS for a transmission of a first reference signal and a transmit power PSRS for a transmission of a second reference signal is set based on a following formula,
PSRS � OFFSET (k) is configured for k=0 and k=1 by a higher layer,
k=0 for the transmission of the first reference signal which is triggered based on higher layer signaling,
k=1 for the transmission of the second reference signal which is triggered based on downlink control information,
min {a first value, a second value} is defined as a function which returns a minimum value among the first value and the second value, the first value being PCMAX, the second value being
P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i),
PCMAX is a maximum transmit power value,
PO � PUSCH is configured by the higher layer,
MSRS corresponds to a bandwidth of the transmission of the first reference signal or the second reference signal,
PL is a path loss which is calculated,
? is configured by the higher layer, and
f(i) is a value based on a transmit power control command
P SRS(i)=min{P CMAX ,P SRS � OFFSET(k)+10 log10(M SRS)+P O � PUSCH+?�PL+f(i)}.