ttcn3: refactor cell search and selection in TTCN3 PHY

- make sure only suitable cells are reported/selected
master
Andre Puschmann 4 years ago
parent 973de8f78d
commit 4650a620d9

@ -23,7 +23,10 @@
namespace srsue {
#define MIN_IN_SYNC_POWER (-120.0)
#define SUITABLE_CELL_RS_EPRE (-97.0) // Threshold for cell-search and cell-select
#define NON_SUITABLE_CELL_RS_EPRE (-115.0) // Threshold until sync can be maintained
#define NON_SUITABLE_OFF_CELL_RS_EPRE (-145.0)
#define SUITABLE_NEIGHBOR_INTRAFREQ_RS_EPRE (-91)
#define DEFAULT_RSRQ (-3.0)
lte_ttcn3_phy::lte_ttcn3_phy(srslte::logger* logger_) : logger(logger_) {}
@ -38,7 +41,6 @@ int lte_ttcn3_phy::init(const phy_args_t& args_, stack_interface_phy_lte* stack_
int lte_ttcn3_phy::init(const phy_args_t& args_, stack_interface_phy_lte* stack_, srslte::radio_interface_phy* radio_)
{
return init(args_);
}
@ -86,7 +88,11 @@ void lte_ttcn3_phy::set_config(srslte::phy_cfg_t& config, uint32_t cc_idx, uint3
// Measurements interface
void lte_ttcn3_phy::meas_stop(){};
/* Cell search and selection procedures */
// Cell search and selection procedures
// Note that in contrast to a real PHY, we have visibility of all existing cells
// configured by the SS, including the ones that we should not even detect because
// their power is too weak. The cell search should only report the cells that
// are actually visible though.
phy_interface_rrc_lte::cell_search_ret_t lte_ttcn3_phy::cell_search(phy_cell_t* found_cell)
{
std::lock_guard<std::mutex> lock(mutex);
@ -97,12 +103,18 @@ phy_interface_rrc_lte::cell_search_ret_t lte_ttcn3_phy::cell_search(phy_cell_t*
ret.found = cell_search_ret_t::CELL_NOT_FOUND;
if (not cells.empty() && cell_idx < cells.size()) {
log.info("Found Cell: EARFCN=%d CellId=%d\n", cells[cell_idx].earfcn, cells[cell_idx].info.id);
// only find suitable cells
if (cells[cell_idx].power >= SUITABLE_CELL_RS_EPRE) {
log.info("Found Cell: EARFCN=%d CellId=%d power=%.2f\n",
cells[cell_idx].earfcn,
cells[cell_idx].info.id,
cells[cell_idx].power);
if (found_cell) {
found_cell->earfcn = cells[cell_idx].earfcn;
found_cell->pci = cells[cell_idx].info.id;
}
ret.found = cell_search_ret_t::CELL_FOUND;
}
// advance index
cell_idx++;
@ -127,14 +139,14 @@ bool lte_ttcn3_phy::cell_select(const phy_cell_t* rrc_cell)
// try to find RRC cell in current cell map
for (auto& cell : cells) {
if (cell.info.id == rrc_cell->pci) {
if (cell.power >= MIN_IN_SYNC_POWER) {
if (cell.power >= SUITABLE_CELL_RS_EPRE) {
pcell = cell;
pcell_set = true;
syssim->select_cell(pcell.info);
log.info("Select PCell with %.2f on PCI=%d on EARFCN=%d.\n", cell.power, rrc_cell->pci, rrc_cell->earfcn);
} else {
pcell_set = false;
log.error("Power of selected cell too low (%.2f < %.2f)\n", cell.power, MIN_IN_SYNC_POWER);
log.error("Power of selected cell too low (%.2f < %.2f)\n", cell.power, SUITABLE_CELL_RS_EPRE);
}
return pcell_set;
@ -149,7 +161,7 @@ bool lte_ttcn3_phy::cell_is_camping()
{
if (pcell_set) {
log.info("pcell.power=%2.f\n", pcell.power);
return (pcell.power >= MIN_IN_SYNC_POWER);
return (pcell.power >= SUITABLE_CELL_RS_EPRE);
}
return false;
};
@ -208,7 +220,7 @@ int lte_ttcn3_phy::sr_last_tx_tti()
/* Sets a C-RNTI allowing the PHY to pregenerate signals if necessary */
void lte_ttcn3_phy::set_crnti(uint16_t rnti)
{
log.info("Set Temp-RNTI=%d\n", rnti);
log.debug("Set Temp-RNTI=%d, pregen not used\n", rnti);
}
/* Time advance commands */
@ -327,9 +339,10 @@ void lte_ttcn3_phy::radio_failure()
// Calling function set_tti() is holding mutex
void lte_ttcn3_phy::run_tti()
{
// send report for each cell
// send report for all cell stronger than non-suitable cell RS
std::vector<rrc_interface_phy_lte::phy_meas_t> phy_meas;
for (auto& cell : cells) {
if (cell.power >= NON_SUITABLE_CELL_RS_EPRE) {
rrc_interface_phy_lte::phy_meas_t m = {};
m.pci = cell.info.id;
m.earfcn = cell.earfcn;
@ -337,13 +350,14 @@ void lte_ttcn3_phy::run_tti()
m.rsrq = DEFAULT_RSRQ;
// Measurement for PCell needs to have EARFCN set to 0
if (pcell_set && m.earfcn == pcell.earfcn) {
if (pcell_set && m.earfcn == pcell.earfcn && m.pci == pcell.info.id) {
m.earfcn = 0;
}
log.debug("Create cell measurement for PCI=%d, EARFCN=%d with RSRP=%.2f\n", m.pci, m.earfcn, m.rsrp);
phy_meas.push_back(m);
}
}
if (not phy_meas.empty()) {
stack->new_cell_meas(phy_meas);
@ -353,7 +367,8 @@ void lte_ttcn3_phy::run_tti()
if (pcell_set) {
for (auto& cell : cells) {
if (cell.info.id == pcell.info.id) {
if (cell.power >= MIN_IN_SYNC_POWER) {
// consider Pcell in-sync until reaching threshold
if (cell.power >= NON_SUITABLE_CELL_RS_EPRE) {
log.debug("PCell id=%d power=%.2f -> sync\n", pcell.info.id, cell.power);
stack->in_sync();
} else {

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