Communication system

The invention claimed is: 1. A communication system, which comprises a communication terminal device, a large-scale base station device that configures a large-scale cell having a relatively large range in which said large-scale base station device is configured to perform radio communication with said communication terminal device, and a small-scale base station device that configures a small-scale cell having a relatively small range in which said small-scale base station device is configured to perform said radio communication, said small-scale cell being installed in said large-scale cell, wherein said small-scale base station device has two operation modes of a normal mode and an energy saving mode and is capable of shifting from said normal mode to said energy saving mode and shifting from said energy saving mode to said normal mode, said small-scale base station device performing a transmission operation for a downlink transmission signal to be transmitted to said communication terminal device and a reception operation for an uplink transmission signal transmitted from said communication terminal device in said normal mode, said small-scale base station device stopping at least said transmission operation in said energy saving mode, in said energy saving mode, said small-scale base station device performs a detection operation of detecting interference against the own device and, upon detection of the interference by said communication terminal device during communication with said large-scale base station device, shifts from said energy saving mode to said normal mode, said detection operation is an operation of measuring interference power per frequency, and said small-scale base station device classifies frequencies at which said interference power is measured according to a past history of use of the frequencies, and skips measuring said interference power at a frequency at which said history of use satisfies a predetermined condition. 2. The communication system according to claim 1 , wherein said history of use is a frequency of use, and said small-scale base station device skips measuring said interference power at a frequency at which the frequency of use is lower than a predetermined frequency. 3. The communication system according to claim 1 , wherein said detection operation is an operation of measuring interference power per frequency, and said small-scale base station device classifies time periods in which said interference power is measured according to a past history of use of the periods, and configures a time period in which said interference power is measured for each of the classified time periods. 4. The communication system according to claim 3 , wherein said history of use is a frequency of use, and said small-scale base station device configures, for a time period in which the frequency of use is lower, a longer period in which said interference power is measured. 5. The communication system according to claim 1 , wherein said small-scale base station device starts issuing a pilot signal indicating the own device when shifting from said energy saving mode to said normal mode, and upon receipt of said pilot signal by said communication terminal device, a handover process from said large-scale base station device to said small-scale base station device is performed for said communication terminal device. 6. A communication system, which comprises a communication terminal device, a large-scale base station device that configures a large-scale cell having a relatively large range in which said large-scale base station device is configured to perform radio communication with said communication terminal device, and a small-scale base station device that configures a small-scale cell having a relatively small range in which said small-scale base station device is configured to perform said radio communication, said small-scale cell being installed in said large-scale cell, wherein said small-scale base station device has two operation modes of a normal mode and an energy saving mode and is capable of shifting from said normal mode to said energy saving mode and shifting from said energy saving mode to said normal mode, said small-scale base station device performing a transmission operation for a downlink transmission signal to be transmitted to said communication terminal device and a reception operation for an uplink transmission signal transmitted from said communication terminal device in said normal mode, said small-scale base station device stopping at least said transmission operation in said energy saving mode, in said energy saving mode, said small-scale base station device performs a detection operation of detecting interference against the own device and, upon detection of the interference by said communication terminal device during communication with said large-scale base station device, shifts from said energy saving mode to said normal mode, said detection operation is an operation of measuring interference power per frequency, and said small-scale base station device classifies time periods in which said interference power is measured according to a past history of use of the periods, and configures a time period in which said interference power is measured for each of the classified time periods. 7. The communication system according to claim 6 , wherein said history of use is a frequency of use, and said small-scale base station device configures, for a time period in which the frequency of use is lower, a longer period in which said interference power is measured. 8. The communication system according to claim 6 , wherein said small-scale base station device starts issuing a pilot signal indicating the own device when shifting from said energy saving mode to said normal mode, and upon receipt of said pilot signal by said communication terminal device, a handover process from said large-scale base station device to said small-scale base station device is performed for said communication terminal device.