In-vehicle wireless communication management system and method of controlling same

1 . A method for managing wireless communication between vehicles, where each of the vehicles is equipped with a near field wireless communication router, the method comprising: acquiring, with a first router included in a first vehicle, power information from at least one wireless device located inside the first vehicle and from a second vehicle having a second router; determining whether interference occurs in near field wireless communication based on the power information; when it is determined that the interference occurs, determining a location of a source of the interference to be either an interior of the first vehicle or an exterior of the first vehicle; and depending on the location of the source of the interference, requesting power adjustment to either the at least one wireless device or the second router such that the interference is mitigated, wherein determining the location of the source of the interference comprises: determining a received signal strength indicator (RSSI) of any wireless device of a plurality of wireless devices; when the RSSI is not problematic, determining that the location of the source of the interference is the exterior of the first vehicle; and when the RSSI is problematic, determining that the location of the source of the interference is the interior of the first vehicle. 2 . (canceled) 3 . The method of claim 1 , wherein acquiring the power information further comprises: wirelessly acquiring location information of the second vehicle and a power of the second router. 4 . The method of claim 3 , wherein determining whether interference occurs further comprises: determining a distance between the first vehicle and the second vehicle based on the location information of the second vehicle and location information of the first vehicle; and determining a valid interference power by applying the power of the second router to the distance between the vehicles. 5 . The method of claim 4 , wherein requesting the power adjustment comprises: determining a proper power of the second router based on the distance between the first vehicle and the second vehicle, wherein the second router is configured to mitigate the interference; and when the power of the second router is greater than the proper power, requesting that the second vehicle operate the second router with the proper power. 6 . The method of claim 5 , further comprising: when requesting that the second vehicle operate the second router with the proper power fails, controlling a power of any wireless device of the plurality of wireless devices. 7 . The method of claim 4 , wherein requesting the power adjustment comprises: when it is determined that the location of the source of the interference is the interior of the first vehicle, selecting at least two wireless devices among the plurality of wireless devices, wherein the at least two wireless devices are configured to create mutual interference; determining an optimal RSSI of each of the at least two wireless devices; and requesting that each of the at least two wireless devices operate with the optimal RSSI. 8 . The method of claim 7 , wherein determining the optimal RSSI comprises: converting the RSSI of the at least two wireless devices to a predetermined unit; and determining a maximum RSSI as the optimal RSSI, wherein the maximum RSSI does not create the mutual interference as a result of converting the RSSI. 9 . The method of claim 7 , further comprising: when the optimal RSSI is applied, determining whether the at least two wireless devices generates interference to the second vehicle. 10 . A non-transitory computer-readable recording medium having a program recorded thereon, the program to direct a processor to: acquire, with a first router included in a first vehicle, power information from at least one wireless device located inside the first vehicle and from a second vehicle having a second router; determine whether interference occurs in near field wireless communication based on the power information; when it is determined that the interference occurs, determined a location of a source of the interference to be either an interior of the first vehicle or an exterior of the first vehicle; determine a received signal strength indicator (RSSI) of any wireless device of a plurality of wireless devices; when the RSSI is not problematic, determine that the location of the source of the interference is the exterior of the first vehicle; when the RSSI is problematic, determine that the location of the source of the interference is the interior of the first vehicle; and depending on the location of the source of the interference, request power adjustment to either the at least one wireless device or the second router such that the interference is mitigated. 11 . An in-vehicle wireless communication management system for managing wireless communication interference in a vehicle environment, comprising: a wireless communication unit configured to acquire power information from at least one wireless device located inside a vehicle and from an external vehicle having a router; and a controller configured to: determine whether interference occurs in near field wireless communication based on the power information; determine a location of a source of the interference to be either an interior of the vehicle or an exterior of the vehicle when it is determined that the interference occurs; request power adjustment to either the at least one wireless device or the router such that the interference is mitigated depending on the location of the source of the interference; determine a received signal strength indicator (RSSI) of any wireless device of a plurality of wireless devices; determine that the location of the source of the interference is the exterior of the vehicle when the RSSI is not problematic; and determine that the location of the source of the interference is the interior of the vehicle when the RSSI is problematic. 12 . (canceled) 13 . The in-vehicle wireless communication management system of claim 11 , wherein the wireless communication unit is configured to wirelessly acquire location information of the external vehicle and a power of the router. 14 . The in-vehicle wireless communication management system of claim 13 , wherein the controller is configured to: determine a distance between the vehicles based on the location information of the external vehicle and location information of the vehicle; and determine a valid interference power by applying the power of the second router to the distance between the vehicles. 15 . The in-vehicle wireless communication management system of claim 14 , wherein the controller is configured to: determine a proper power of the router based on the distance between the vehicles, wherein the router is configured to mitigate the interference; and when the power of the router is greater than the proper power, request that the external vehicle operate the router with the proper power. 16 . The in-vehicle wireless communication management system of claim 15 , wherein the controller is configured to control a power of any wireless device of the plurality of wireless devices when the requesting that the external vehicle operate the router with the proper power fails. 17 . The in-vehicle wireless communication management system of claim 14 , wherein the controller is configured to: select at least two wireless devices among the plurality of wireless devices, wherein the at least two wireless devices are configured to crea