Blood pressure measurement apparatus, method of controlling blood pressure measurement apparatus, and program

The invention claimed is: 1. A blood pressure measurement apparatus that measures a blood pressure by tonometry, the blood pressure measurement apparatus comprising: a measurement device that includes a plurality of pressure sensors that measure blood pressure information for each heartbeat in a measurement target; and a processor configured to: extract feature quantities from an output waveform of each of the pressure sensors for each heartbeat, and infer an arrangement state of the measurement device relative to an artery that is the measurement target based on a distribution profile of values of the feature quantities for the plurality of pressure sensors; and calculate a reliability of the blood pressure information measured by the measurement device, based on the inferred arrangement state, wherein the processor is configured to extract, from the output waveform of each of the pressure sensors for each heartbeat, a difference value between a maximum value and a minimum value in the output waveform, and the minimum value, as the feature quantities, and infer the arrangement state of the measurement device based on a distribution profile of the difference values for the plurality of pressure sensors and a distribution profile of the minimum values, wherein the measurement device has at least one sensor array that includes at least a portion of the plurality of pressure sensors arranged side-by-side in a direction that intersects the artery during measurement, wherein the arrangement state includes a pressing extent that indicates an extent of force that the sensor array applies to the artery, and the processor is configured to infer the pressing extent based on a difference between a peak value and a bottom value in the distribution profile of the difference values and/or the peak value in the distribution profile of the difference values. 2. The blood pressure measurement apparatus according to claim 1 , wherein the at least one sensor array includes a first sensor array including a portion of the plurality of pressure sensors and a second sensor array including another portion of the plurality of pressure sensors, the first sensor array and the second sensor array being arranged parallel with each other, the arrangement state includes an artery direction tilt that indicates tilt in a direction parallel to a direction of extension of the artery, relative to a reference state that is an orientation suited to measurement, and the processor is configured to infer the artery direction tilt based on a difference between a peak value and a bottom value in the distribution profile of the difference values and the peak value in the distribution profile of the difference values for each of the first sensor array and the second sensor array. 3. The blood pressure measurement apparatus according to claim 1 , wherein the at least one sensor array includes a first sensor array including a portion of the plurality of pressure sensors and a second sensor array including another portion of the plurality of pressure sensors, the first sensor array and the second sensor array being arranged parallel with each other, the arrangement state includes an artery direction shift that indicates shift in a direction parallel to a direction of extension of the artery, relative to a reference state that is an orientation suited to measurement, and the processor is configured to infer the artery direction shift based on a difference between peak values in the distribution profiles of the difference values of the first sensor array and the second sensor array. 4. The blood pressure measurement apparatus according to claim 1 , wherein the at least one sensor array includes a first sensor array including a portion of the plurality of pressure sensors and a second sensor array including another portion of the plurality of pressure sensors, the first sensor array and the second sensor array being arranged parallel with each other, the arrangement state includes a rotation shift that indicates rotation of the measurement device in a plane of contact with the measurement target, relative to a reference state that is an orientation suited to measurement, and the processor is configured to infer the rotation shift based on a difference between positions of peaks in the distribution profiles of the difference values of the first sensor array and the second sensor array. 5. The blood pressure measurement apparatus according to claim 1 , wherein the processor is further configured to output one of or a combination of the blood pressure information, the arrangement state, and the reliability. 6. The blood pressure measurement apparatus according to claim 5 , further comprising one of or a combination of a display that outputs one of or a combination of the blood pressure information, the arrangement state, and the reliability, using text and/or an image, a speaker that outputs one of or a combination of the blood pressure information, the arrangement state, and the reliability, using sound, and a communication device that outputs, to another apparatus, one of or a combination of the blood pressure information, the arrangement state, and the reliability, using wired or wireless communication. 7. The blood pressure measurement apparatus according to claim 5 , wherein the processor is further configured to output information indicating an unsuitable arrangement state that causes a decrease in the reliability, in a case where the reliability is less than or equal to a predetermined reference value. 8. The blood pressure measurement apparatus according to claim 5 , wherein the processor is further configured to output a method of correcting an unsuitable arrangement state that causes a decrease in the reliability to a suitable arrangement state, in a case where the reliability is less than or equal to a predetermined reference value. 9. The blood pressure measurement apparatus according to claim 1 , wherein the blood pressure measurement apparatus is a wearable apparatus for being attached to a wrist. 10. A blood pressure measurement apparatus that measures a blood pressure by tonometry, the blood pressure measurement apparatus comprising: a measurement device that includes a plurality of pressure sensors that measure blood pressure information for each heartbeat in a measurement target; and a processor configured to: extract feature quantities from an output waveform of each of the pressure sensors for each heartbeat, and infer an arrangement state of the measurement device relative to an artery that is the measurement target based on a distribution profile of values of the feature quantities for the plurality of pressure sensors; and calculate a reliability of the blood pressure information measured by the measurement device, based on the inferred arrangement state, wherein the processor is configured to extract, from the output waveform of each of the pressure sensors for each heartbeat, a difference value between a maximum value and a minimum value in the output waveform, and the minimum value, as the feature quantities, and infer the arrangement state of the measurement device based on a distribution profile of the difference values for the plurality of pressure sensors and a distribution profile of the minimum values, wherein the measurement device has at least one sensor array that includes at least a portion of the plurality of pressure sensors arranged side-by-side in a direction that intersects the artery during measurement, wherein the arrangement state includes a width direction tilt that indicates tilt in a direction perpendicular to a direction of extension of the artery, relative to a reference state that is an orientat