System and method for estimating state of health of all-solid-state battery

What is claimed is: 1. A method of estimating a state of health (SOH) of an all-solid-state battery, comprising: detecting whether hydrogen sulfide is generated in each cell of the all-solid-state battery; estimating the state of health of the all-solid-state battery corresponding to an amount or an increase rate of generated hydrogen sulfide based on data prepared in advance; collecting current-voltage data when the all-solid-state battery is being charged, and collecting capacity data when the all-solid-state battery is fully charged; estimating the state of health of the all-solid-state battery by comparing the current-voltage data and the capacity data when the all-solid-state battery is fully charged with data sets prepared in advance; and identifying a plurality of deterioration factors of the battery by comparing a first state of health estimated based on the amount of generated hydrogen sulfide with a second state of health estimated based on the current-voltage data and the capacity data when the all-solid-state battery is fully charged. 2. The method according to claim 1 , further comprising: interrupting a current in any cell of the all-solid-state battery in response to determining that the amount or the increase rate of generated hydrogen sulfide detected in the cell exceeds a preset hydrogen sulfide threshold. 3. The method according to claim 1 , further comprising: storing the first state of health, the second state of health, and the identified deterioration factors in a database. 4. The method according to claim 1 , further comprising: managing the state of health for each identified deterioration factor. 5. A system of estimating a state of health of an all-solid-state battery, the system comprising: the all-solid-state battery including a plurality of cells and a hydrogen sulfide sensor configured to measure an amount or an increase rate of generated hydrogen sulfide in each cell; and an all-solid-state battery management system configured to receive the amount or the increase rate of generated hydrogen sulfide measured in each cell and to estimate the state of health of the all-solid-state battery based on the received amount or increase rate of generated hydrogen sulfide; wherein the all-solid-state battery management system is configured to estimate the state of health of the all-solid-state battery based on the current-voltage data during charging and the capacity data when fully charged; and wherein the all-solid-state battery management system includes: a first extraction unit configured to extract the amount or the increase rate of generated hydrogen sulfide as a first factor to determine the state of health of the battery from the hydrogen sulfide sensor; and a second extraction unit configured to extract the current-voltage data during charging and capacity data when fully charged as a second factor to determine the state of health of the battery. 6. The system according to claim 5 , wherein the all-solid-state battery management system further comprises a state-of-health estimation unit, wherein the state-of-health estimation unit is configured to estimate a first state of health corresponding to the first factor using a first data set prepared in advance and to estimate a second state of health corresponding to the second factor using a second data set prepared in advance. 7. The system according to claim 6 , wherein the all-solid-state battery management system further includes an information-processing-and-storing unit, and wherein the information-processing-and-storing unit is configured to store the first data set and the second data set, and to update and store the estimated first and second states of health in real time. 8. The system according to claim 7 , wherein the information-processing-and-storing unit is configured to identify a plurality of deterioration factors by comparing the first state of health with the second state of health and to store the identified deterioration factors. 9. The system according to claim 8 , wherein the all-solid-state battery management system is configured to manage the state of health for each identified deterioration factor. 10. The system according to claim 5 , wherein each cell is sealed by a casing, and wherein a first part of the hydrogen sulfide sensor is disposed inside the casing, and a second part of the hydrogen sulfide sensor is disposed outside the casing. 11. The system according to claim 5 , wherein the hydrogen sulfide sensor is a thin-film gas sensor.