Apparatus and method for sending and receiving broadcast signals

What is claimed is: 1. A broadcast signal receiver, comprising: a Fast Fourier Transform (FFT) module configured to Orthogonal Frequency Division Multiplexing (OFDM)-demodulate a received broadcast signal; a pilot detector configured to detect pilots included in the broadcast signal; a frame parsing module configured to parse a signal frame of the broadcast signal, the signal frame comprising a preamble and at least one subframe; a demapping and decoding module configured to convert Physical Layer Pipe (PLP) data of the broadcast signal into a bit domain and to Forward Error Correction (FEC)-decode the PLP data; and an output processing module configured to receive the PLP data and to output a data stream, wherein the subframe comprises data symbols and at least one Subframe Boundary Symbol (SBS), and the SBS comprises data carriers and subframe boundary pilots, and wherein the data symbols of the subframe comprises Scattered Pilots (SPs), amplitude of the SPs is determined based on an SP boosting parameter indicating a power boosting level of the SPs, and amplitude of the subframe boundary pilots is determined based on the SP boosting parameter. 2. The broadcast signal receiver of claim 1 , wherein: the subframe boundary pilots are placed based on a pilot separation (Dx) in a frequency direction of an SP pattern for the subframe, and the data carriers of the SBS comprise a specific number of active data carriers and a specific number of null carriers. 3. The broadcast signal receiver of claim 2 , wherein the number of active data carriers is determined based on the SP boosting parameter. 4. The broadcast signal receiver of claim 2 , wherein the number of null carriers is determined based on the amplitude of the SPs. 5. The broadcast signal receiver of claim 2 , wherein the number of null carriers is obtained by subtracting the number of active data carriers from the number of data carriers. 6. The broadcast signal receiver of claim 2 , wherein: the active data carriers are placed at a center of the data carriers, and half of the null carriers are placed at each band edges of the data carriers. 7. A method of receiving a broadcast signal, comprising: Orthogonal Frequency Division Multiplexing (OFDM)-demodulating a received broadcast signal; detecting pilots included in the broadcast signal; parsing a signal frame of the broadcast signal, the signal frame comprising a preamble and at least one subframe; converting Physical Layer Pipe (PLP) data of the broadcast signal into a bit domain and Forward Error Correction (FEC)-decoding the PLP data; and receiving the PLP data and outputting a data stream, wherein the subframe comprises data symbols and at least one Subframe Boundary Symbol (SBS), and the SBS comprises data carriers and subframe boundary pilots, and wherein the data symbols of the subframe comprises Scattered Pilots (SPs), amplitude of the SPs is determined based on an SP boosting parameter indicating a power boosting level of the SPs, and amplitude of the subframe boundary pilots is determined based on the SP boosting parameter. 8. The method of claim 7 , wherein: the subframe boundary pilots are placed based on a pilot separation (Dx) in a frequency direction of an SP pattern for the subframe, and the data carriers of the SBS comprise a specific number of active data carriers and a specific number of null carriers. 9. The method of claim 8 , wherein the number of active data carriers is determined based on the SP boosting parameter. 10. The method of claim 8 , wherein the number of null carriers is determined based on the amplitude of the SPs. 11. The method of claim 8 , wherein the number of null carriers is obtained by subtracting the number of active data carriers from the number of data carriers. 12. The method of claim 8 , wherein: the active data carriers are placed at a center of the data carriers, and half of the null carriers are placed at each band edges of the data carriers.