Method and apparatus controlling charging of battery based on diffusion characteristics of material included in the battery

What is claimed is: 1. A battery charging control method comprising: measuring a parameter associated with the battery when the battery is being charged, the battery comprising a cathode, and anode, and an electrolyte; estimating a material concentration distribution within the cathode, estimating a material concentration within the anode, and estimating a material distribution within the electrolyte; estimating a cathode temperature distribution within the cathode, estimating an anode temperature distribution within the anode, and estimating an electrolyte temperature distribution within the electrolyte, wherein the cathode temperature distribution corresponds to positional distribution of temperature within the cathode, wherein the anode temperature distribution corresponds to positional distribution of temperature within the anode, and wherein the electrolyte distribution corresponds to positional distribution of temperature within the electrolyte, adjusting a magnitude of a current to be input to the battery based on the material concentration distributions and the temperature distributions; and charging the battery based on the adjusted magnitude of the current. 2. The battery charging control method of claim 1 , wherein the parameter comprises a potential difference between the cathode and the anode, the magnitude of the current, or a magnitude of a current to be output from the battery. 3. The battery charging control method of claim 1 , wherein the adjusting the magnitude of the current is based on a charging current maintenance time or a restriction condition of the battery. 4. The battery charging control method of claim 3 , wherein the adjusting the magnitude of the current comprises: determining whether a time in which a constant magnitude of a current is input is exceeds the charging current maintenance time; in response to the time in which the constant magnitude of the current is input is determined to exceed the charging maintenance time, determining a charging speed coefficient at a point in time exceeding the charging current maintenance time based on the material concentration distributions and the positional temperature distributions; and adjusting the magnitude of the current based on the charging speed coefficient. 5. The battery charging control method of claim 4 , wherein the adjusting the magnitude of the current based on the charging speed coefficient comprises: calculating a difference between a first charging speed coefficient at a starting time in which the constant magnitude of the current is started being input to the battery and a second charging speed coefficient at the point in time exceeding the charging current maintenance time; and adjusting the magnitude of the current based on the difference. 6. The battery charging control method of claim 5 , wherein the adjusting the magnitude of the current based on the difference comprises: in response to the first charging speed coefficient being less than the second, increasing the magnitude of the current; and in response to the first charging speed coefficient being greater than the second charging speed coefficient, decreasing the magnitude of the current. 7. The battery charging control method of claim 3 , wherein the adjusting the magnitude of the current comprises: determining whether the restriction condition is satisfied; and in response to the restriction condition being determined to be satisfied, decreasing the magnitude of the current to be input to the battery. 8. The battery charging control method of claim 4 , wherein the charging speed coefficient is a smaller coefficient among a cathode diffusion coefficient, an anode diffusion coefficient, and an electrolyte diffusion coefficient. 9. A battery charging control apparatus comprising: a processor configured to: measure a parameter associated with the battery when the battery is charged, the battery comprising a cathode, an anode, and an electrolyte, based on the parameter, estimate distributions of material concentrations within the cathode and the anode, respectively, based on the parameter, estimate positional distributions of temperature within the cathode and the anode, respectively, adjust a magnitude of a current to be input to the battery based on the distributions of the material concentrations and the positional distributions of temperatures, and charging the battery based on the adjusted magnitude of the current. 10. The battery charging control apparatus of claim 9 , wherein the parameter comprises a potential difference between the cathode and the anode, the magnitude of the current, or a magnitude of a current output from the battery. 11. The battery charging control apparatus of claim 9 , wherein the processor is further configured to: adjust the magnitude of the current based on charging current maintenance time or a restriction condition of the battery. 12. The battery charging control apparatus of claim 11 , wherein the processor is further configured to: determine whether a time in which a constant magnitude of a current is input is-exceeds the charging current maintenance time, in response to the time in which the constant magnitude of the current is input is determined to exceed the charging maintenance time, determine a charging speed coefficient at a point in time exceeding the charging current maintenance time based on the material concentration distributions and the positional temperature distributions and adjust the magnitude of the current based on the charging speed coefficient. 13. The battery charging control apparatus of claim 11 , wherein the processor is further configured to: calculate a difference between a first charging speed coefficient for a time of starting charging the current with the constant magnitude and a second charging speed coefficient for a point in time exceeding a charging current maintenance time; and adjust the magnitude of the current based on the difference. 14. The battery charging control apparatus of claim 13 , wherein the processor is further configured to: in response to the first charging speed coefficient being less than the second, increase the magnitude of the current; and in response to the first charging speed coefficient being greater than the second charging speed coefficient, decrease the magnitude of the current. 15. The battery charging control apparatus of claim 11 , wherein the processor is further configured to: determine whether the restriction condition is satisfied; in response to the restriction condition being determined to be satisfied, decrease the magnitude of the current to be input to the battery. 16. The battery charging control apparatus of claim 12 , wherein the charging speed coefficient is a smaller coefficient among a cathode diffusion coefficient, an anode diffusion coefficient, and an electrolyte diffusion coefficient. 17. The battery charging control apparatus of claim 11 , wherein the processor is configured to adjust the magnitude of the current based on the restriction condition, and wherein the restriction is set based on an overpotential that corresponds to degradation of the battery. 18. The battery charging apparatus of claim 17 , wherein the restriction condition corresponds to accumulation of the material on a surface of the cathode or the anode and the restriction condition is determined to prevent the accumulation.