Abstract: A light box includes a point like light source, a light reflecting plate arranged around said point like light source and a light diffusion surface plate having light transmissive property and arranged to face said light reflecting plate. The light box can include a case having an opening formed in a direction of light and for housing at least said point like light source and said light reflecting plate inside. Additionally, a receiving concave portion is formed with said light reflecting plate, said point like light source is allocated inside said receiving concave portion, an injection angle of the light from said point like light source is 0°, and a brightness is less than or equal to 15000 cd/m2 when spaced apart a distance of 350 mm, and a part or all of the light from said point like light source is provided for an illumination after reflecting at an inner surface of a circumferential wall of said receiving concave portion.

Abstract: An illumination device comprises a light reflecting plate, a circuit board, and a point like light source, the light reflecting plate or a combination of the light reflecting plate and the circuit board forming a receiving concave portion. The point like light source is arranged in the receiving concave portion, wherein a brightness of a light emitted from the point like light source is to be up to 30000 cd/m2, when an incident angle of the light emitted from the light source is zero and 350 mm apart from the light source, and a part or all of the light emitted from the point like light source is reflected from an inner face of peripheral walls of the receiving concave portion and supplied as an illumination.

Abstract: An inducer of cytotoxic T cells comprising as an active ingredient a protein which comprises the same or substantially the same amino acid sequence as that shown in SEQ ID NO: 2, or a peptide derived from the protein above is provided.

Abstract: An inducer of cytotoxic T cells comprising as an active ingredient a protein which comprises the same or substantially the same amino acid sequence as that shown in SEQ ID NO: 2, or a peptide derived from the protein above is provided.

Abstract: In a measurement system, by suppressing the environmental changes of counter-flow of air, and temperature changes and the like, measurement can be accomplished with stable high precision and replication, and by providing a transparent cell 2 which stores a particles dispersed in a dispersion medium, and a light source which irradiates light onto the particles within the transparent cell 2, and multiple light detectors 5 scattered and arranged to detect the intensity of diffracted/scattered light produced by the irradiation of light, and a computer device 6 which calculates the particle size distribution of the particles based on the light intensity signal output from the light detectors 5, in addition to the establishment of cell storage space S which stores the transparent cell 2 and the equipment storage spaces S1 and S2 which store the light source 41a, the light detector 5, and the optical device 6, the equipment storage spaces S1 and S2 are given tight closed construction separate from the cell storage s

Abstract: The present invention provides a mobile communication terminal that can execute, by designation by an application program, novel image conversions that cannot be executed in the conventional mobile communication terminal. The mobile communication terminal 20 includes application program execution managing means 211, displaying means 12, image display controlling means 213 and image conversion processing means 214. The image conversion processing means selectively executes, based on conversion-contents designating information received from the application program execution managing means, at least one drawing-type image conversion process of an enlargement process, a contraction process, and a pseudo semi-transparent process for partial hiding by use of a transmissive mask pattern, for the image data subject to image conversion process stored in the image data storage means 211b.

Abstract: A measured physical quantity calculating part 41 calculates a measurement result-corrected value obtained by correcting a measurement result of a sensor unit 25 by the use of corrected values for the sensor unit 25. Subsequently, a measurement environment estimating part 42 estimates a terrestrial magnetism measurement environment on the basis of at least one measurement result-corrected value. The estimation result is displayed on a display unit 13 by an estimation result display part 43. In this way, the terrestrial magnetism measurement environment is first estimated and then the terrestrial magnetism is measured by the use of the sensor unit 25. That is, it is possible to measure the terrestrial magnetism by the use of a magnetic sensor mounted on a mobile information device after estimating the terrestrial magnetism measurement environment.

Abstract: An inducer of cytotoxic T cells comprising as an active ingredient a protein which comprises the same or substantially the same amino acid sequence as that shown in SEQ ID NO: 2, or a peptide derived from the protein above is provided.

Abstract: A measured physical quantity calculating part 41 calculates a measurement result-corrected value obtained by correcting a measurement result of a sensor unit 25 by the use of corrected values for the sensor unit 25. Subsequently, a measurement environment estimating part 42 estimates a terrestrial magnetism measurement environment on the basis of at least one measurement result-corrected value. The estimation result is displayed on a display unit 13 by an estimation result display part 43. In this way, the terrestrial magnetism measurement environment is first estimated and then the terrestrial magnetism is measured by the use of the sensor unit 25. That is, it is possible to measure the terrestrial magnetism by the use of a magnetic sensor mounted on a mobile information device after estimating the terrestrial magnetism measurement environment.

Abstract: The present invention provides an external apparatus for mobile communication terminal, a mobile communication terminal, and an external display systems for mobile communication terminal by which application programs using detection means can be executed in a main body of a mobile communication terminal without raising the cost of the main body. The external apparatus 30 for mobile communication terminal is comprised of a sensor detection unit (detection means) 312 and a communication control unit (data transmission means) 311. The sensor detection unit 312 detects at least one of position, direction, attitude and movement of the external apparatus 30 for mobile communication terminal. The communication control unit 311 sends detection result data acquired based on detection results by the sensor detection unit 312 to the mobile communication terminal by wired or wireless non-public short-range communication.

Abstract: The present invention provides a mobile communication terminal and an application programs capable of utilizing detection result data obtained by detection means for detecting position, direction, attitude and/or movement in a platform-independent application program that can be registered and used by users. When downloading an application program to a mobile communication terminal and executing it, first, the application execution environment is activated and the application program is executed under the environment. The started application program sends an acquisition request for acceleration data to the phone platform. When the phone platform accepts the acquisition request, it passes acceleration data detected by an acceleration sensor to the application program. Accordingly, the application program can perform a process utilizing the acceleration data.

Abstract: A particle diameter distribution measurement apparatus and method includes a sample cell that can be irradiated by a source of light. A plurality of detectors are positioned operatively adjacent to the sample cell to measure light interacting with a specimen in the sample cell. A storage unit stores values representative of outputs of the detectors for a plurality of standard particle sizes. The representation outputs extend across a range of detection for a plurality of detectors. A controller unit can perform a calibration based on the stored values and an actual measurement of one or more standard particle sizes that has the capability of providing a range of detection that will be inclusive of a standard particle size that is not available for measurement.

Abstract: In a measurement system, by suppressing the environmental changes of counter-flow of air, and temperature changes and the like, measurement can be accomplished with stable high precision and replication, and by providing a transparent cell 2 which stores a particles dispersed in a dispersion medium, and a light source which irradiates light onto the particles within the transparent cell 2, and multiple light detectors 5 scattered and arranged to detect the intensity of diffracted/scattered light produced by the irradiation of light, and a computer device 6 which calculates the particle size distribution of the particles based on the light intensity signal output from the light detectors 5, in addition to the establishment of cell storage space S which stores the transparent cell 2 and the equipment storage spaces S1 and S2 which store the light source 41a, the light detector 5, and the optical device 6, the equipment storage spaces S1 and S2 are given tight closed construction separate from the cell storage s

Abstract: The present invention provides a particle diameter distribution measuring method, a particle diameter distribution measuring device, and a measuring program which decreases the dependence of the calculation of particle diameter distribution on sample concentration, and can measure with higher precision by setting a concentration correction unique to a specific measuring sample in a particle diameter distribution measuring device. The measuring sample is measured by changing its concentration. Concentration correction constants for correcting detection values of detectors according to the concentration of the sample are found. The detection values of the respective detectors are corrected by using the concentration correction constants, and the particle diameter distribution is measured by using the corrected detection values of the respective detectors.

Abstract: This invention provides a particle size distribution measuring apparatus, which has a function of informing an operator of a procedure of validation work of the particle size distribution measuring apparatus. A storage medium which records validation data providing a procedure of validation work for the particle size distribution measuring apparatus and a control unit which has a validation help function which successively reads a validation procedure from the validation data and controls the particle size distribution measuring apparatus according to a measuring procedure without any operation by an operator in the validation procedure while teaching the operator a work procedure requiring an operation by the operator.

Abstract: The present invention provides a particle diameter distribution measuring method, a particle diameter distribution measuring device, and a measuring program which decreases the dependence of the calculation of particle diameter distribution on sample concentration, and can measure with higher precision by setting a concentration correction unique to a specific measuring sample in a particle diameter distribution measuring device. The measuring sample is measured by changing its concentration. Concentration correction constants for correcting detection values of detectors according to the concentration of the sample are found. The detection values of the respective detectors are corrected by using the concentration correction constants, and the particle diameter distribution is measured by using the corrected detection values of the respective detectors.

Abstract: A particle diameter distribution measurement apparatus and method includes a sample cell that can be irradiated by a source of light. A plurality of detectors are positioned operatively adjacent to the sample cell to measure light interacting with a specimen in the sample cell. A storage unit stores values representative of outputs of the detectors for a plurality of standard particle sizes. The representation outputs extend across a range of detection for a plurality of detectors. A controller unit can perform a calibration based on the stored values and an actual measurement of one or more standard particle sizes that has the capability of providing a range of detection that will be inclusive of a standard particle size that is not available for measurement.