Wireless power transmission apparatus

What is claimed is: 1. A wireless power transmission apparatus comprising: a resonant circuit including a plurality of coils and a plurality of capacitor elements respectively connected to the plurality of coils; a first sensor configured to sense a change in inductance of each of the plurality of coils; a second sensor configured to sense a change in a quality factor of each of the plurality of coils; and a controller configured to: calculate feature values based on an inductance variation and a quality factor variation for detecting a foreign object, and determine the foreign object is present on a charging surface of the wireless power transmission apparatus based on whether a feature value combination selected from among the feature values falls within a reference region on a coordinate plane formed by an intersection of a first axis and a second axis, wherein the first axis is based on the inductance variation and the second axis is based on the quality factor variation. 2. The wireless power transmission apparatus according to claim 1 , wherein the feature values include an average inductance variation, an average quality factor variation, a maximum-minimum inductance variation, and a maximum-minimum quality factor variation. 3. The wireless power transmission apparatus according to claim 1 , wherein the controller is further configured to: select two feature values from among the feature values, and generate a combination of the two feature values, wherein the combination is a point plottable on the coordinate plane. 4. The wireless power transmission apparatus according to claim 1 , wherein the reference region is set based on a region on the coordinate plane including feature value combinations when only a wireless power receiver is placed on the charging surface without any foreign object being present on the charging surface. 5. The wireless power transmission apparatus according to claim 1 , further comprising: a memory configured to store a plurality of reference regions corresponding to respective groupings of feature value combinations, wherein the controller is further configured to: generate a plurality of feature value combinations from the feature values, and determine the foreign object is present on the charging surface based on whether each of the plurality of feature value combinations falls within a corresponding one of the plurality of reference regions. 6. The wireless power transmission apparatus according to claim 1 , wherein the controller is further configured to: plot a first feature value combination selected from among the feature values on the coordinate plane, and in response to the first feature value combination falling outside of a first reference region, determine that the foreign object is present on the charging surface. 7. The wireless power transmission apparatus according to claim wherein the controller is further configured to: plot a first feature value combination selected from among the feature values on the coordinate plane, in response to the first feature value combination failing within a first reference region, select a second feature value combination from among the feature values, and determine whether the foreign object is present on the charging surface based on whether the second feature value combination falls within a second reference region. 8. The wireless power transmission apparatus according to claim 7 , wherein the controller is further configured to: in response to the second feature value combination falling outside of the second reference region, determine the foreign object is present on the charging surface. 9. The wireless power transmission apparatus according to claim 8 , wherein the second feature value combination includes different feature values than the first feature value combination. 10. The wireless power transmission apparatus according to claim 7 , wherein the first feature value combination includes an average inductance variation and an average quality factor variation, and wherein the second feature value combination includes an average inductance variation and a maximum-minimum quality factor variation. 11. The wireless power transmission apparatus according to claim 1 , wherein the controller is further configured to: plot a plurality of feature value combinations on corresponding coordinate planes, and in response to each of the plurality of feature value combinations falling within a corresponding predefined reference region, determine that no foreign object is present on the charging surface and start wireless power charging by the wireless power transmission apparatus. 12. The wireless power transmission apparatus according to claim 1 , wherein the first sensor is configured to: calculate a resonant frequency based on a magnitude of voltage acquired from opposite ends of each of the plurality of coils in accordance with sweep of a frequency, calculate the inductance of each of the plurality coils using the resonant frequency, sense the change in the inductance of each of the plurality of coils, and transmit the change in the inductance of each of the plurality of cods to the controller. 13. The wireless power transmission apparatus according to claim 1 , wherein the second sensor is configured to: calculate the quality factor of each of the plurality of coils based on a maximum voltage gain acquired from opposite ends of each of the plurality of coils in accordance with sweep of a frequency, sense the change in the quality factor of each of the plurality of coils, and transmit the change in the quality factor of each of the plurality of coils to the controller. 14. The wireless power transmission apparatus according to claim 1 , wherein the plurality of coils in the resonant circuit includes first, second, third and fourth coils, and wherein each coil among the first, second, third and fourth coils partially overlaps with three other coils among the first, second, third and fourth coils. 15. A wireless power transmission method for controlling a wireless power transmission apparatus, the wireless power transmission method comprising: sensing a change in inductance of each of a plurality of coils in the wireless power transmission apparatus; sensing a change in a quality factor of each of the plurality of coils in the wireless power transmission apparatus; calculating feature values based on an inductance variation and a quality factor variation for detecting a foreign object; and determining whether the foreign object is present on a charging surface of the wireless power transmission apparatus based on whether a feature value combination selected from among the feature values falls within a reference region on a coordinate plane formed by an intersection of a first axis and a second axis, wherein the first axis is based on the inductance variation and the second axis is based on the quality factor variation. 16. The wireless power transmission method according to claim 15 , wherein the calculating the feature values includes: calculating an average inductance variation; calculating an average quality factor variation; calculating a maximum-minimum inductance variation; and calculating a maximum-minimum quality factor variation. 17. The wireless power transmission method according to claim 15 , further comprising: plotting a first feature value combination selected from among the feature values on the coordinate plane; and in response to the first feature value combination falling outside of a first reference region,