请注意,本文内容源自机器翻译,可能存在语法或其它翻译错误,仅供参考。如需获取准确内容,请参阅链接中的英语原文或自行翻译。
器件型号:AWR6843AOPEVM 工具/软件:
尊敬的 TI 专家:
Good Day~根据 "生命体征与人员跟踪开发人员指南.pdf",
函数"MmwDemo_vitalsignPickupPoint"的输出指针称为 Datasave_Mss_ TCMA_p"
将被生命体征处理所使用。 然而、作为下面描述的功能块 daigram、
"MmwDemo_vitalsignProcessing" 函数似乎从未使用"MmwDemo_vitalsignProcessing" Datasave_Mss_。
我还深入研究了 "MmwDemo_vitalsignProcessing" 的代码,似乎永远不会使用 Datasave_Mss_。
您是否知道 Datasave_Mss_ "MmwDemo_vitalsignPickupPoint"生产后在哪个位置使用"CMA_p" ?
也,我们可以通过传递 BPM 去调制部分的代码 在 "MmwDemo_vitalsignPickupPoint"作为附加?
//This is for SDK3.x DATA FORMAT 1
//ONLY SAVE 8 VITURAL CHANNEL AND 5 RANGE BIN DATA.
//re-org the ADC data format in L3.
for(cntii=*rangeidx-2;cntii<*rangeidx+3;cntii++)
{
for(cntjj=0;cntjj<12;cntjj++)
{
pData_temp[cntjj] = pDataIn[48 * 12 * cntii + cntjj]; //change for new static detection chain
}
//de-modulation the BPM
//[0:3] TIM1, [4:7] TIM2, [8:11] TIM3 RX signals
//RADARDEMO_aoaEst2DCaponBF_bpmDemodulation
//AOP
pData_temp[20].real = (pData_temp[0].real + pData_temp[8].real)/2;
pData_temp[20].imag = (pData_temp[0].imag + pData_temp[8].imag)/2;
pData_temp[21].real = (pData_temp[1].real + pData_temp[9].real)/(-2); //phase rotation
pData_temp[21].imag = (pData_temp[1].imag + pData_temp[9].imag)/(-2);
pData_temp[22].real = (pData_temp[2].real + pData_temp[10].real)/2;
pData_temp[22].imag = (pData_temp[2].imag + pData_temp[10].imag)/2;
pData_temp[23].real = (pData_temp[3].real + pData_temp[11].real)/(-2);
pData_temp[23].imag = (pData_temp[3].imag + pData_temp[11].imag)/(-2);
pData_temp[24].real = (pData_temp[4].real);
pData_temp[24].imag = (pData_temp[4].imag);
pData_temp[25].real = (pData_temp[5].real)*(-1); //phase rotation
pData_temp[25].imag = (pData_temp[5].imag)*(-1);
pData_temp[26].real = (pData_temp[6].real);
pData_temp[26].imag = (pData_temp[6].imag);
pData_temp[27].real = (pData_temp[7].real)*(-1);
pData_temp[27].imag = (pData_temp[7].imag)*(-1);
pData_temp[28].real = (pData_temp[0].real - pData_temp[8].real)/2;
pData_temp[28].imag = (pData_temp[0].imag - pData_temp[8].imag)/2;
pData_temp[29].real = (pData_temp[1].real - pData_temp[9].real)/(-2);
pData_temp[29].imag = (pData_temp[1].imag - pData_temp[9].imag)/(-2);
pData_temp[30].real = (pData_temp[2].real - pData_temp[10].real)/2;
pData_temp[30].imag = (pData_temp[2].imag - pData_temp[10].imag)/2;
pData_temp[31].real = (pData_temp[3].real - pData_temp[11].real)/(-2);
pData_temp[31].imag = (pData_temp[3].imag - pData_temp[11].imag)/(-2);
//ISK Demodulation
//RADARDEMO_aoaEst2DCaponBF_bpmDemodulation
// pData_temp[20].real = (pData_temp[0].real + pData_temp[8].real)/2;
// pData_temp[20].imag = (pData_temp[0].imag + pData_temp[8].imag)/2;
// pData_temp[21].real = (pData_temp[1].real + pData_temp[9].real)/2;
// pData_temp[21].imag = (pData_temp[1].imag + pData_temp[9].imag)/2;
// pData_temp[22].real = (pData_temp[2].real + pData_temp[10].real)/2;
// pData_temp[22].imag = (pData_temp[2].imag + pData_temp[10].imag)/2;
// pData_temp[23].real = (pData_temp[3].real + pData_temp[11].real)/2;
// pData_temp[23].imag = (pData_temp[3].imag + pData_temp[11].imag)/2;
// pData_temp[24].real = (pData_temp[4].real);
// pData_temp[24].imag = (pData_temp[4].imag);
// pData_temp[25].real = (pData_temp[5].real);
// pData_temp[25].imag = (pData_temp[5].imag);
// pData_temp[26].real = (pData_temp[6].real);
// pData_temp[26].imag = (pData_temp[6].imag);
// pData_temp[27].real = (pData_temp[7].real);
// pData_temp[27].imag = (pData_temp[7].imag);
// pData_temp[28].real = (pData_temp[0].real - pData_temp[8].real)/2;
// pData_temp[28].imag = (pData_temp[0].imag - pData_temp[8].imag)/2;
// pData_temp[29].real = (pData_temp[1].real - pData_temp[9].real)/2;
// pData_temp[29].imag = (pData_temp[1].imag - pData_temp[9].imag)/2;
// pData_temp[30].real = (pData_temp[2].real - pData_temp[10].real)/2;
// pData_temp[30].imag = (pData_temp[2].imag - pData_temp[10].imag)/2;
// pData_temp[31].real = (pData_temp[3].real - pData_temp[11].real)/2;
// pData_temp[31].imag = (pData_temp[3].imag - pData_temp[11].imag)/2;
for(cntjj=0;cntjj<12;cntjj++)
{
pData_temp[cntjj] = pData_temp[20 + cntjj];//change for new static detection chain
}
Datasave_Mss_TCMA_p[cntkk] = pData_temp[3];
cntkk++;
Datasave_Mss_TCMA_p[cntkk] = pData_temp[1];
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[2].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[2].imag;
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[0].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[0].imag;
cntkk++;
Datasave_Mss_TCMA_p[cntkk] = pData_temp[11];
cntkk++;
Datasave_Mss_TCMA_p[cntkk] = pData_temp[9];
cntkk++;
Datasave_Mss_TCMA_p[cntkk] = pData_temp[7];
cntkk++;
Datasave_Mss_TCMA_p[cntkk] = pData_temp[5];
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[10].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[10].imag;
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[8].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[8].imag;
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[6].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[6].imag;
cntkk++;
Datasave_Mss_TCMA_p[cntkk].real = pData_temp[4].real;
Datasave_Mss_TCMA_p[cntkk].imag = pData_temp[4].imag;
cntkk++;
}
