Signal processing device and radiation measurement device

What is claimed is: 1. A radiation measurement device, comprising: a radiation detector configured to generate a detection signal containing a weak signal in accordance with energy of an incident radiation thereof; a signal processor configured to receive the detection signal from the radiation detector and detect the weak signal from the detection signal, the signal processor includes: a first pulse detector configured to receive the detection signal, add noise to the received detection signal, and process the noise-added detection signal using a first threshold, to thereby output a first threshold processing signal having a first pulse waveform component, which corresponds to an interval in which a level of the noise-added detection signal exceeds the first threshold, a second pulse detector configured to receive the detection signal in parallel with the first pulse detector, and process the detection signal using a second threshold, to thereby output a second threshold processing signal having a second pulse waveform component, which corresponds to an interval in which a level of the detection signal exceeds the second threshold, and a determining circuit configured to determine whether each of the first and second pulse waveform components conforms to the weak signal; and a dosimeter configured to calculate a radiation dose based on an output signal from the signal processor, by respectively applying first and second dose coefficients to the first and second pulse waveform components. 2. The radiation measurement device of claim 1 , wherein the first and second dose coefficients are provided in accordance with an amplification level of the weak signal at the first and second pulse detectors, respectively. 3. The radiation measurement device of claim 2 , wherein the determining circuit selects the second pulse waveform component upon determining that both the first and second pulse waveform components conform to the weak signal. 4. The radiation measurement device of claim 3 , wherein the first threshold processing signal has a plurality of first pulse waveform components, the second threshold processing signal has a plurality of second pulse waveform components, and the signal processor further includes a pulse counter configured to separately count the plurality of first pulse waveform components and the plurality of second pulse waveform components, responsive to the determination by the determining circuit that the plurality of first and second pulse waveform components both conform to the weak signal. 5. The radiation measurement device of claim 2 , wherein the first threshold processing signal has a plurality of first pulse waveform components, the second threshold processing signal has a plurality of second pulse waveform components, and the signal processor further includes a pulse counter configured to separately count the plurality of first pulse waveform components and the plurality of second pulse waveform components, responsive to the determination by the determining circuit that the plurality of first and second pulse waveform components both conform to the weak signal. 6. The radiation measurement device of claim 1 , wherein the determining circuit selects the second pulse waveform component upon determining that both the first and second pulse waveform components conform to the weak signal. 7. The radiation measurement device of claim 6 , wherein the first threshold processing signal has a plurality of first pulse waveform components, the second threshold processing signal has a plurality of second pulse waveform components, and the signal processor further includes a pulse counter configured to separately count the plurality of first pulse waveform components and the plurality of second pulse waveform components, responsive to the determination by the determining circuit that the plurality of first and second pulse waveform components both conform to the weak signal. 8. The radiation measurement device of claim 1 , wherein the first threshold processing signal has a plurality of first pulse waveform components, the second threshold processing signal has a plurality of second pulse waveform components, and the signal processor further includes a pulse counter configured to separately count the plurality of first pulse waveform components and the plurality of second pulse waveform components, responsive to the determination by the determining circuit that the plurality of first and second pulse waveform components both conform to the weak signal.