Abstract: A communication apparatus sends a processing request, including request information, a digital signature, and an electronic certificate, to a control apparatus. The control apparatus sends a verification request including the electronic certificate to a verification server. The verification server verifies the electronic certificate included in the verification request, and sends authentication-use reference information, including the verification result, as a verification response, to the control apparatus. When the verification result included in the authentication-use reference information indicates validity, the control apparatus, using the request information and a public key included in the electronic certificate, verifies whether or not the digital signature is valid. When the digital signature is valid, the control apparatus performs the requested processing in accordance with the request information, and sends a processing response, to the communication apparatus.

Abstract: In a wildcard-applicable anonymous hierarchical identity-based encryption system, it is aimed to make the number of pairing operations a fixed number. A user identifier ID and a pattern P are used. The user identifier ID includes k number of hierarchy identifiers. The pattern P includes either of a hierarchy identifier, a wildcard value and a blank value for each hierarchy. An encryption device 400 extracts a key value H corresponding to a hierarchy of the wildcard value and a key value H corresponding to a hierarchy of a pattern value from a public key PK, calculates a cipher value C1 and a cipher value C3, and outputs ciphertext data CT including plaintext cipher value C0, the cipher value C1, and the cipher value C3.

Abstract: A communication apparatus sends a processing request, including request information, a digital signature, and an electronic certificate, to a control apparatus. The control apparatus sends a verification request including the electronic certificate to a verification server. The verification server verifies the electronic certificate included in the verification request, and sends authentication-use reference information, including the verification result, as a verification response, to the control apparatus. When the verification result included in the authentication-use reference information indicates validity, the control apparatus, using the request information and a public key included in the electronic certificate, verifies whether or not the digital signature is valid. When the digital signature is valid, the control apparatus performs the requested processing in accordance with the request information, and sends a processing response, to the communication apparatus.

Abstract: In a wildcard-applicable anonymous hierarchical identity-based encryption system, it is aimed to make the number of pairing operations a fixed number. A user identifier ID and a pattern P are used. The user identifier ID includes k number of hierarchy identifiers. The pattern P includes either of a hierarchy identifier, a wildcard value and a blank value for each hierarchy. An encryption device 400 extracts a key value H corresponding to a hierarchy of the wildcard value and a key value H corresponding to a hierarchy of a pattern value from a public key PK, calculates a cipher value C1 and a cipher value C3, and outputs ciphertext data CT including plaintext cipher value C0, the cipher value C1, and the cipher value C3.

Abstract: The state of combustion oscillation in the combustor of a turbine of a power plant is monitored from a remote monitoring center. To monitor the combustion oscillation state, combustion oscillation data on the combustor is separated into two types of data: the first data obtained on a real-time basis, and the second data including representative values within a predetermined period of time obtained from the first data. In the normal state, a low-speed communications mode is used to send the second data, which is monitored at the monitoring center. If an abnormal state is predicted as a result of monitoring the second data, the high-speed communications mode is used to send the first data, and more detailed combustion oscillation data is monitored at the monitoring center. When a critical state is predicted, an instruction is sent to the local site to switch the operation mode over to the low load operation mode.

Abstract: The present invention is characterized in that the state of combustion oscillation in the combustor of a turbine of a plant such as a power plant is monitored from a remote monitoring center. To monitor combustion oscillation state, combustion oscillation data on the combustor is separated into two types of data; (1) the first data obtained on a real-time basis, and (2) the second data consisting of representative values within a predetermined period of time obtained from the first data. In the normal state, a low-speed communications mode is used to send the second data, which is monitored at the monitoring center. If an abnormal state is predicted as a result of monitoring the second data, the high-speed communications mode is used to send the first data, and more detailed combustion oscillation data is monitored at-the monitoring center. When a critical state is predicted, an instruction is sent to the local site to switch the operation mode over to the low load operation mode, whenever required.