Abstract: A method includes obtaining a series of more than two Boolean events, each respective Boolean event having either a first value indicating that reimbursement for a respective overpayment of a service was timely received or a second value indicating reimbursement was not timely received. The method includes determining an actual number of switch events in the series of Boolean events and determining an expected number of switch events. The method includes determining a confidence interval for the expected number of switch events, and determining a score based on the actual number of switch events, the expected number of switch events, and the confidence interval. The score is indicative of a fault in a process generating the series of Boolean events. The method includes generating an alert based on the score being greater than or equal to a threshold score.

Abstract: Provided is an image generation device generating a high-quality image of an object under a pseudo light source at any desired position, based on geometric parameters generated from a low-quality image of the object. The image generation device includes: a geometric parameter calculation unit (102) that calculates a first geometric parameter regarding a surface structure from light source position, viewpoint position, and geometric normal information regarding the surface structure; a high-resolution database unit (103) that stores an exemplum indicating a mesostructure of a portion of the surface and has a spatial resolution higher than the geometric normal information; an exemplum expansion unit (104) that increases the exempla to be spatially expanded; a geometric parameter modification unit (105) that modifies the first geometric parameter using the increased exempla; and an image generation unit (106) that generates an output image by applying the modified geometric parameter to a reflection model.

Abstract: Provided is an image generation device generating a high-quality image of an object under a pseudo light source at any desired position, based on geometric parameters generated from a low-quality image of the object. The image generation device includes: a geometric parameter calculation unit (102) that calculates a first geometric parameter regarding a shape of a surface from light source position, viewpoint position, and geometric normal information regarding the shape; a high-resolution database unit (103) that stores an exemplum indicating a mesostructure of a portion of the surface and has a spatial resolution higher than the geometric normal information; an exemplum expansion unit (104) that increases the exempla to be spatially expanded; a geometric parameter modification unit (105) that modifies the first geometric parameter using the increased exempla; and an image generation unit (106) that generates an output image by applying the modified geometric parameter to a reflection model.

Abstract: A four current transistor temperature sensor comprises a p-n junction, preferably the base-emitter junction of a bipolar transistor, which is driven with four different currents in a predetermined sequence. Each of the four currents induces a respective base-emitter voltage, which is measured. The temperature of the transistor is calculated based on the values of the four driving currents and the four measured base-emitter voltages. The four driving currents (I1, I2, I3 and I4) are preferably arranged such that I1=2*I3, I2=2*I4, I1/I2=A and I3/I4=A, where A is a predetermined current ratio. I1 and I2 produce respective base-emitter voltages which are subtracted from each other to produce &Dgr;Vbe1, and I3 and I4 produce respective base-emitter voltages which are subtracted from each other to produce &Dgr;Vbe2. When so arranged, the difference between &Dgr;Vbe1 and &Dgr;Vbe2 is entirely due to the effect of series base and emitter resistances rb and re.