Method and apparatus estimating state of battery

What is claimed is: 1 . A battery life estimation apparatus comprising: a stress pattern extractor configured to use at least one processing device to extract a stress pattern from sensing data acquired for a battery, the stress pattern representing changes in states of the battery based on stresses applied to the battery and characterized by categorizing different stresses represented in the sensing data; and a life estimator configured to use at least one processing device to estimate a life of the battery based on the characterized stress pattern. 2 . The battery life estimation apparatus of claim 1 , further comprising a sensor system including a plurality of sensors to measure the sensing data of the battery, the sensing data being real time measurements of physical properties of the battery. 3 . The battery life estimation apparatus of claim 1 , wherein the life estimator estimates the life of the battery in real time by providing characteristic data, as the categorized different stresses, to a learner to which a learning parameter is applied, wherein the learning parameter is previously trained on battery training sensing data of a previous time. 4 . The battery life estimation apparatus of claim 1 , wherein the sensing data comprises at least one of voltage data, current data, and temperature data of the battery sensed from respective sensors configured to measure corresponding properties of the battery. 5 . The battery life estimation apparatus of claim 1 , wherein the stress pattern extractor is configured to extract the stress pattern from the sensing data using a rainflow counting scheme, and wherein the stress pattern represents a plurality of cycles that respectively represent changes in values of the sensing data over time. 6 . The battery life estimation apparatus of claim 5 , wherein the stress pattern extractor is configured to perform the categorizing by extracting a level for each of the plurality of cycles from a plurality of levels of a determined parameter, and configured to generate, based on each of the levels, characteristic data representing a characteristic of the stress pattern. 7 . The battery life estimation apparatus of claim 6 , wherein the stress pattern extractor is configured to perform the categorizing by generating the characteristic data based on a determined number of cycles, of the plurality of cycles, that correspond to each of the plurality of levels. 8 . The battery life estimation apparatus of claim 6 , wherein the determined parameter comprises at least one of an offset, an amplitude, and a period of each of the plurality of cycles. 9 . The battery life estimation apparatus of claim 6 , wherein the stress pattern extractor is configured to create a plurality of combination parameters, each representing respective levels for each of a plurality of the determined parameters for a cycle, and configured to perform the categorizing by generating the characteristic data based on a determined number of cycles, of the plurality of cycles, whose determined parameters correspond to each of the plurality of combination parameters. 10 . The battery life estimation apparatus of claim 9 , wherein the stress pattern extractor is configured to determine the number of cycles by applying different weights to different cycle patterns of the plurality of cycles. 11 . The battery life estimation apparatus of claim 10 , wherein the different cycle patterns include full and half cycle patterns. 12 . The battery life estimation apparatus of claim 9 , further comprising a dimension transformer configured to reduce a dimension of the characteristic data, wherein the life estimator is configured to estimate the life of the battery by inputting the characteristic data with the reduced dimension to a predetermined learner to which a predetermined learning parameter is applied. 13 . The battery life estimation apparatus of claim 6 , wherein the stress pattern extractor is configured to generate the characteristic data at a predetermined period, so that characteristic data is generated for plural predetermined periods. 14 . The battery life estimation apparatus of claim 6 , wherein the life estimator is configured to estimate the life of the battery by inputting the characteristic data to a predetermined learner to which a predetermined learning parameter is applied. 15 . The battery life estimation apparatus of claim 14 , further comprising a dimension transformer configured to reduce a dimension of the characteristic data, wherein the life estimator is configured to estimate the life of the battery by inputting the characteristic data with the reduced dimension to the predetermined learner. 16 . The battery life estimation apparatus of claim 14 , further comprising a communication interface, wherein the life estimator is configured to receive the predetermined learning parameter from an external apparatus using the communication interface, and configured to apply the received learning parameter to the predetermined learner. 17 . The battery life estimation apparatus of claim 14 , further comprising a storage configured to store in advance the predetermined learning parameter, wherein the life estimator is configured to obtain the predetermined learning parameter from the storage and apply the obtained predetermined learning parameter to the predetermined learner. 18 . The battery life estimation apparatus of claim 1 , wherein the life estimator estimates the life of the battery in real time by providing characteristic data, as the categorized different stresses, to a learner to which a learning parameter is applied, and wherein the learning parameter is trained on battery training sensing data of a previous time, the life estimation apparatus further comprising: a training data acquirer configured to acquire the battery training sensing data for the battery, in the previous time; a training stress pattern extractor configured to use at least one processing device to extract a training stress pattern from the battery training sensing data, the training stress pattern representing changes in states of the battery based on stresses applied to the battery and characterized by categorizing different stresses represented in the training data; and a learning parameter determiner configured to use at least one processing device to determine the learning parameter based on the characterized training stress pattern. 19 . A battery life estimation apparatus comprising: a training stress pattern extractor configured to use at least one processing device to extract a training stress pattern from training data for a battery, the training stress pattern representing change in states of the battery based on stresses applied to the battery and characterized by categorizing different stresses represented in the training data; and a learning parameter determiner configured to use at least one processing device to determine a learning parameter based on the characterized training stress pattern, the learning parameter being determined for use in estimating a life of the battery. 20 . The battery life estimation apparatus of claim 19 , wherein the training data is derived from a previous measuring of physical properties of the battery. 21 . The battery life estimation apparatus of claim 19 , wherein the training stress pattern extractor is configured to extract the training stress pattern from the training data using a rainflow counting scheme, and wherein