Sensing system and information processing apparatus

What is claimed is: 1 . A sensing system comprising: a first odor sensor including one or more detection elements respectively configured to detect an amount or amounts of an odor-causing substance or odor-causing substances existing in air, the one or more detection elements respectively outputting one or more first output signals; a filter configured to remove the odor-causing substance existing in air; a second odor sensor including one or more detection elements respectively configured to detect an amount or amounts of the odor-causing substance or substances existing in air that has passed through the filter, the one or more detection elements respectively outputting one or more second output signals; and one or more processors that generate one or more detection signals by calculating a difference between the one or more first output signals from the one or more detection elements of the first odor sensor and the one or more second output signals from the one or more detection elements of the second odor sensor, the one or more processors generating odor information representing at least one of characteristics of the one or more detection signals based on one or more waveforms of the one or more detection signals and outputting the generated odor information. 2 . The sensing system according to claim 1 , wherein the first odor sensor and the second odor sensor include a same type of the one or more detection elements, and wherein the one or more processors calculate a difference between the first output signal and the second output signal, which are generated by the same type of the detection elements. 3 . The sensing system according to claim 1 , further comprising: a temperature sensor configured to detect ambient temperature of the first odor sensor and the second odor sensor, wherein the one or more processors correct the one or more detection signals based on the ambient temperature. 4 . The sensing system according to claim 1 , further comprising: a humidity sensor configured to detect ambient humidity of the first odor sensor and the second odor sensor, wherein the one or more processors correct the one or more detection signals based on the ambient humidity. 5 . The sensing system according to claim 1 , further comprising: an air intake unit configured to take in air to surroundings of the first odor sensor and the second odor sensor, wherein the one or more processors are configured to: cause the air intake unit to operate for a given period, cause the air intake unit to stop operation after the given period has elapsed, and cause, after the stop of operation of the air intake unit, the first odor sensor and the second odor sensor to start detection of the amounts of the odor-causing substance. 6 . The sensing system according to claim 1 , further comprising: a heater configured to raise a temperature of ambient air of the first odor sensor and the second odor sensor, wherein the one or more processors are configured to cause the heater to operate for a given period, cause the heater to stop operation after the given period has elapsed, and cause, after the stop of operation of the heater, the first odor sensor and the second odor sensor to start detection of the amount of the odor-causing substance. 7 . The sensing system according to claim 1 , wherein the one or more processors generate information representing the one or more waveforms of the one or more detection signals as at least a part of the odor information. 8 . The sensing system according to claim 1 , wherein the one or more processors further detect, as a start timing, a timing at which the one or more detection signals starts to change, and wherein the one or more processors generate the odor information based on the one or more detection signals in a given period from the start timing. 9 . The sensing system according to claim 8 , wherein the one or more processors detect, as the start timing, a timing at which any one of the one or more detection signals changes more greatly than a predetermined threshold value. 10 . The sensing system according to claim 8 , wherein the one or more waveforms correspond to the one or more detection signals in a period from the start timing to a timing at which the given period has elapsed, and wherein the one or more processors generate information representing the one or more waveforms as the odor information. 11 . The sensing system according to claim 8 , wherein the one or more waveforms correspond to the one or more detection signals in a period from the start timing to a timing at which the given period has elapsed, and wherein the one or more processors generate, as the odor information, a feature amount from the one or more waveforms. 12 . The sensing system according to claim 8 , wherein the one or more waveforms correspond to the one or more detection signals in a period from the start timing to a first time later, and wherein the one or more processors generate, as the odor information, a change amount of the one or more waveforms at an end point with respect to a start point. 13 . The sensing system according to claim 8 , wherein the one or more waveforms correspond to the one or more detection signals in a period from the start timing to a second time later, and wherein the one or more processors generate, as the odor information, a maximal value and a minimal value of the one or more waveforms. 14 . The sensing system according to claim 8 , wherein the one or more processors determine a type of odor based on the one or more waveforms, wherein the one or more waveforms correspond to the one or more detection signals in the given period from the start timing, and wherein the one or more processors output, as the odor information, the determined type of odor. 15 . The sensing system according to claim 8 , wherein the one or more processors generates time of the start timing as at least a part of the odor information. 16 . The sensing system according to claim 1 , wherein each of the one or more detection elements in each of the first and second odor sensors includes: a quartz oscillator that is cut in a shape to oscillate by a piezoelectric effect; and an adsorption film that is provided to the quartz oscillator to adsorb a given odor-causing substance, and wherein each of the one or more first output signals and the one or more second output signals represents a change in a fundamental resonance frequency of the corresponding quartz oscillator. 17 . An information processing apparatus comprising one or more processors configured to perform the following: receiving one or more first output signals generated by one or more detection elements included in a first odor sensor, the one or more detection elements being respectively configured to detect an amount or amounts of an odor-causing substance or odor-causing substances existing in air, receiving one or more second output signals generated by one or more detection elements included in a second odor sensor, the one or more detection elements being respectively configured to detect an amount or amounts of the odor-causing substance existing or substances in air that has passed through a filter configured to remove the odor-causing substance; and calculating a difference between the one or more first output signals from the one or more detection elements of the first odor sensor and the one or more second output signals from the one or more detection elements of the second odor sensor so as to generate odor