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@ -280,26 +280,21 @@ static void interpolate_pilots(chest_dl_t *q, cf_t *ce, uint32_t port_id)
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}
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}
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float chest_dl_rssi(lte_cell_t cell, cf_t *input) {
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float rssi = 0;
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uint32_t l, p;
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uint32_t loop_ports = cell.nof_ports>2?2:1;
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float chest_dl_rssi(chest_dl_t *q, cf_t *input, uint32_t port_id) {
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uint32_t l;
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for (p=0;p<loop_ports;p++) {
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uint32_t nsymbols = refsignal_cs_nof_symbols(2*p);
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float rssi = 0;
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uint32_t nsymbols = refsignal_cs_nof_symbols(port_id);
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for (l=0;l<nsymbols;l++) {
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cf_t *tmp = &input[refsignal_nsymbol(l,cell.cp, 2*p) * cell.nof_prb * RE_X_RB];
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rssi += crealf(vec_dot_prod_conj_ccc(tmp, tmp, cell.nof_prb * RE_X_RB));
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}
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cf_t *tmp = &input[refsignal_nsymbol(l,q->cell.cp, port_id) * q->cell.nof_prb * RE_X_RB];
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rssi += vec_dot_prod_conj_ccc(tmp,tmp,q->cell.nof_prb * RE_X_RB);
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}
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return rssi;
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return rssi/nsymbols;
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}
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float chest_dl_rsrp(chest_dl_t *q, uint32_t port_id) {
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return crealf(vec_dot_prod_conj_ccc(q->pilot_estimates_average[port_id],
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q->pilot_estimates_average[port_id],
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REFSIGNAL_NUM_SF(q->cell.nof_prb, port_id)))
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/ REFSIGNAL_NUM_SF(q->cell.nof_prb, port_id);
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return vec_avg_power_cf(q->pilot_recv_signal[port_id],
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REFSIGNAL_NUM_SF(q->cell.nof_prb, port_id));
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}
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int chest_dl_estimate_port(chest_dl_t *q, cf_t *input, cf_t *ce, uint32_t sf_idx, uint32_t port_id)
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@ -307,6 +302,16 @@ int chest_dl_estimate_port(chest_dl_t *q, cf_t *input, cf_t *ce, uint32_t sf_idx
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/* Get references from the input signal */
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refsignal_cs_get_sf(q->cell, port_id, input, q->pilot_recv_signal[port_id]);
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/* Compute RSRP for the references in this port */
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if (port_id == 0) {
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q->rsrp[port_id] = chest_dl_rsrp(q, port_id);
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}
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/* compute rssi */
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if (port_id == 0) {
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q->rssi[port_id] = chest_dl_rssi(q, input, port_id);
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}
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/* Use the known CSR signal to compute Least-squares estimates */
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vec_prod_conj_ccc(q->pilot_recv_signal[port_id], q->csr_signal.pilots[port_id/2][sf_idx],
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q->pilot_estimates[port_id], REFSIGNAL_NUM_SF(q->cell.nof_prb, port_id));
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@ -314,9 +319,6 @@ int chest_dl_estimate_port(chest_dl_t *q, cf_t *input, cf_t *ce, uint32_t sf_idx
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/* Average pilot estimates */
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average_pilots(q, port_id);
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/* Compute RSRP for the references in this port */
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q->rsrp[port_id] = chest_dl_rsrp(q, port_id);
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/* Interpolate to create channel estimates for all resource grid */
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if (ce != NULL) {
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interpolate_pilots(q, ce, port_id);
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@ -334,8 +336,6 @@ int chest_dl_estimate(chest_dl_t *q, cf_t *input, cf_t *ce[MAX_PORTS], uint32_t
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for (port_id=0;port_id<q->cell.nof_ports;port_id++) {
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chest_dl_estimate_port(q, input, ce[port_id], sf_idx, port_id);
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}
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/* compute rssi */
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q->rssi = chest_dl_rssi(q->cell, input);
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return LIBLTE_SUCCESS;
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}
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@ -346,21 +346,28 @@ float chest_dl_get_noise_estimate(chest_dl_t *q) {
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float chest_dl_get_snr(chest_dl_t *q) {
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float noise = chest_dl_get_noise_estimate(q);
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if (noise) {
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return chest_dl_get_rssi(q)/(noise*2*q->cell.nof_ports*lte_symbol_sz(q->cell.nof_prb));
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return chest_dl_get_rssi(q)/(noise);//*2*q->cell.nof_ports*lte_symbol_sz(q->cell.nof_prb));
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} else {
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return 0.0;
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}
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}
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float chest_dl_get_rssi(chest_dl_t *q) {
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return q->rssi;
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return 4*q->rssi[0]/q->cell.nof_prb/RE_X_RB;
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}
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/* q->rssi[0] is the average power in all RE in all symbol containing references for port 0 . q->rssi[0]/q->cell.nof_prb is the average power per PRB
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* q->rsrp[0] is the average power of RE containing references only (for port 0).
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*/
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float chest_dl_get_rsrq(chest_dl_t *q) {
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return (4*q->cell.nof_ports*q->cell.nof_prb) * chest_dl_get_rsrp(q) / q->rssi;
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return q->cell.nof_prb*q->rsrp[0] / q->rssi[0];
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}
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float chest_dl_get_rsrp(chest_dl_t *q) {
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return vec_acc_ff(q->rsrp, q->cell.nof_ports)/q->cell.nof_ports;
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// return linear average from port 0 only
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return q->rsrp[0];
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// return linear average from all ports
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//return vec_acc_ff(q->rsrp, q->cell.nof_ports)/q->cell.nof_ports;
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}
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