Beacon signal processing system and filtering method of reducing wake-up frequency

What is claimed is: 1. A beacon signal processing system comprising a memory and a processor, wherein a beacon receiver program containing computerized instructions is stored in the memory and configured to be executed by the processor to perform a method, the method comprising: periodically receiving, by a beacon receiver, a beacon signal from an access point; identifying an information element of data contained in the beacon signal; identifying a data transfer type of a traffic indication message contained in the information element; determining that data contained in the beacon signal is effective data when the data transfer type is corresponding to a specific data transfer type; identifying whether the effective data is necessary data according to a flag corresponding to the specific data transfer type; and operating in a sleep mode when the effective data is identified as the unnecessary data and operating in an active mode when the effective data is identified as the necessary data. 2. The beacon signal processing system of claim 1 wherein the beacon receiver program executed by the processor identifies whether a flag of the data transfer type is a broadcast flag, a multicast flag, or a unicast flag, and when the flag of the data transfer type is the broadcast flag, the multicast flag, or the unicast flag, the data contained in the beacon signal is the effective data corresponding to the specific data transfer type. 3. The beacon signal processing system of claim 2 , wherein when the data transfer type has the broadcast flag/the multicast flag, the beacon receiver program executed by the processor utilizes a media access control (MAC) broadcast filter to identify whether data with the broadcast flag/the multicast flag is unnecessary data. 4. The beacon signal processing system of claim 3 , wherein when the data with the broadcast flag/the multicast flag is filtered by the MAC broadcast filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point; and when the data with the broadcast flag/the multicast flag is not filtered by the MAC broadcast filter, the processor operates in the active mode turning on part or all of modules of hardware and software necessary for communication with the access point. 5. The beacon signal processing system of claim 2 , wherein when the data transfer type has the broadcast flag/the multicast flag, the processor utilizes a MAC multicast filter to identify whether data with the broadcast flag/the multicast flag is unnecessary data. 6. The beacon signal processing system of claim 5 , wherein when the data with the broadcast flag/the multicast flag is filtered by the MAC multicast filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point; and when the data with the broadcast flag/the multicast flag is not filtered by the MAC multicast filter, the processor operates in the active mode turning on part or all of modules of hardware and software necessary for communication with the access point. 7. The beacon signal processing system of claim 2 , wherein when the data transfer type has the unicast flag, the filtering unit utilizes a MAC unicast filter to identify whether data with the unicast flag is unnecessary data. 8. The beacon signal processing system of claim 7 , wherein when the data with the unicast flag is filtered by the MAC unicast filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point. 9. The beacon signal processing system of claim 7 , wherein when the data with the unicast flag is not filtered by the MAC unicast filter, the processor identifies that the data with the unicast flag is necessary data and further identifies whether the unicast flag is a broadcast/multicast Internet protocol (IP) flag or other flags, and when the unicast flag is identified as not the IP flag or the other flags, the data with the unicast flag is identified as the effective data. 10. The beacon signal processing system of claim 7 , wherein when the data with the unicast flag has the broadcast/multicast IP flag, the processor utilizes a broadcast IP filter to identify whether the data with the broadcast/multicast IP flag is unnecessary data. 11. The beacon signal processing system of claim 10 , wherein when the data with the broadcast/multicast IP flag is filtered by the broadcast IP filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point; and when the data with the broadcast/multicast IP flag is not filtered by the broadcast IP filter, the processor operates in the active mode turning on part or all of modules of hardware and software necessary for communication with the access point. 12. The beacon signal processing system of claim 7 , wherein when the data with the unicast flag has the broadcast/multicast IP flag, the processor utilizes a multicast IP filter to identify whether the data with the broadcast/multicast IP flag is unnecessary data. 13. The beacon signal processing system of claim 12 , wherein when the data with the broadcast/multicast IP flag is filtered by the multicast IP filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point; and when the data with the broadcast/multicast IP flag is not filtered by the multicast IP filter, the processor operates in the active mode turning on part or all of modules of hardware and software necessary for communication with the access point. 14. The beacon signal processing system of claim 7 , wherein the processor utilizes another IP filter to identify whether the data with the unicast flag is unnecessary data. 15. The beacon signal processing system of claim 14 , wherein when the data with the unicast IP flag is filtered by the other IP filter, the processor operates in the sleep mode turning off part or all of modules of hardware and software necessary for communication with the access point; and when the data with the unicast IP flag is not filtered by the other IP filter, the processor operates in the active mode turning on part or all of modules of hardware and software necessary for communication with the access point. 16. The beacon signal processing system of claim 1 , wherein the beacon receiver program stored in the memory comprises a filtering unit, the filtering unit comprising: a media access control (MAC) broadcast filter provided to filter unnecessary MAC broadcast data; a MAC multicast filter provided to filter unnecessary MAC multicast data; a MAC unicast filter provided to filter unnecessary MAC unicast data; a broadcast IP filter provided to filter unnecessary broadcast IP data; a multicast IP filter provided to filter unnecessary multicast IP data; and another IP filter provided to filter other IP. 17. A filtering method of reducing wake-up frequency, adapted for an electronic device, the filtering method comprising: periodically receiving a beacon signal from an access point; identifying an information element of data contained in the beacon signal; identifying a traffic indication message contained in the information element, and identifying a data transfer type of the traffic indication message; determining that data contained in the beacon signal is effective data when the data tran