Call test system and method thereof

What is claimed is: 1. A system comprising: a signal generating module configured to generate a first calling signal in a first format; a testing module configured to: transmit a second calling signal in a second format converted from the first calling signal to a calling terminal, drive the calling terminal to transmit the second calling signal to a called terminal as a call event, receive a third called signal in the second format corresponding to the second calling signal from the called terminal, and convert the third called signal into a resultant called signal in the first format; and a signal processing module configured to compare the first calling signal with the resultant called signal to determine a call status between the calling terminal and the called terminal. 2. The system of claim 1 , wherein the second calling signal is transmitted to the calling terminal through a first wired communication link and stored in a memory of the calling terminal, when the testing module drives the calling terminal to transmit the second calling signal to the called terminal, the second calling signal is read from the memory of the calling terminal and transmitted via wireless network, and when the second calling signal is received by the called terminal as the third called signal through the wireless network, the third called signal is transmitted to the testing module through a second wired communication link. 3. The system of claim 1 , wherein the testing module comprises: a first format converting unit configured to convert the first calling signal into the second calling signal; and a second format converting unit configured to convert the third called signal into the resultant called signal. 4. The system of claim 1 , wherein the signal processing module comprises: a feature extracting unit configured to extract first features of the first calling signal and second features of the third called signal; and an analyzing unit configured to: compare the first features and the second features, and determine the call status between the calling terminal and the called terminal based on a comparison result. 5. The system of claim 4 , wherein the first features comprise a time domain envelope, wherein the analyzing unit is configured to determine whether there are silent and intermittent abnormalities associated with the call event by comparing a first time domain envelope of the first calling signal and a second time domain envelope of the resultant called signal. 6. The system of claim 4 , wherein the first features comprise a frequency domain line-spectrum, wherein the analyzing unit is configured to determine whether there is noise associated with the call event by comparing a first frequency domain line-spectrum of the first calling signal and a second frequency domain line-spectrum of the resultant called signal. 7. The system of claim 1 , wherein the signal generating module is configured to generate the first calling signal by: selecting one frequency from each of a predetermined number of different frequency ranges as a fundamental frequency, generating a predetermined number of signals corresponding to the respective selected fundamental frequencies, and superimposing the predetermined number of signals. 8. The system of claim 7 , wherein the signal generating module is further configured to: generate a plurality of calling signals in the first format, allocate different signal identifiers to the plurality of calling signals, and select one calling signal in the first format from among the plurality of calling signals as the first calling signal allocated to the calling terminal, wherein each calling signal of the plurality of calling signals has a different frequency domain line-spectrum and a same time domain envelope, the testing module is further configured to: transmit a signal identifier of the first calling signal to the calling terminal and the called terminal when transmitting the second calling signal to the calling terminal, notify the calling terminal and the called terminal to set up the call event, and receive the signal identifier from the called terminal when receiving the third called signal, and the signal processing module is further configured to: determine the first calling signal among the plurality of calling signals based on the signal identifier, and compare the first calling signal with the resultant called signal. 9. The system of claim 8 , wherein other calling signals in the first format other than the first calling signal among the plurality of calling signals are used to determine other call status between respective other terminals. 10. The system of claim 1 , wherein the first format is an analog format and the second format is a pulse code modulation (PCM) format. 11. A method comprising: generating a first calling signal in a first format; transmitting a second calling signal in a second format converted from the first calling signal to a calling terminal, wherein the second format is different from the first format; driving the calling terminal to transmit the second calling signal to a called terminal as a call event; receiving a third called signal in the second format corresponding to the second calling signal from the called terminal; converting the third called signal into a resultant called signal in the first format; and comparing the first calling signal with the resultant called signal to determine a call status between the calling terminal and the called terminal. 12. The method of claim 11 , wherein the second calling signal is transmitted to the calling terminal through a first wired communication link and stored in a memory of the calling terminal, wherein, when driving the calling terminal to transmit the second calling signal to the called terminal, the second calling signal is read from the memory of the calling terminal and transmitted via wireless network, and wherein, when the third called signal corresponding to the second calling signal is received by the called terminal through the wireless network, the third called signal is transmitted from the called terminal through a second wired communication link. 13. The method of claim 11 , wherein the comparing comprises: extracting first features of the first calling signal and second features of the third called signal; comparing the first features and the second features, and determining the call status between the calling terminal and the called terminal based on a comparison result. 14. The method of claim 13 , wherein the first features comprise a time domain envelope, and the comparing further comprises determining whether there are silent and intermittent abnormalities associated with the call event by comparing a first time domain envelope of the first calling signal and a second time domain envelope of the resultant called signal. 15. The method of claim 13 , wherein the first features comprise a frequency domain line-spectrum, and the comparing further comprises determining whether there is noise associated with the call event by comparing a first frequency domain line-spectrum of the first calling signal and a second frequency domain line-spectrum of the resultant called signal. 16. The method of claim 11 , wherein the generating of the first calling signal comprises: generating the first calling signal by selecting one frequency from each of a predetermined number of different frequency ranges as a fundamental frequency, generating a predetermined number of signals corresponding to the respective selected fun