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ASER/App/nav/segment_fsm.c
nitiantuhao 760043c8e7 1.0
2026-03-31 23:30:33 +08:00

157 lines
4.9 KiB
C
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#include "segment_fsm.h"
#include <string.h>
/* ====================== 内部状态 ====================== */
static SegFsmConfig_t s_cfg;
static SegFsmState_t s_state = SEG_STATE_IDLE;
static bool s_initialized = false;
/* 辅助:浮点数限幅 */
static inline float seg_clampf(float val, float lo, float hi)
{
if (val < lo) return lo;
if (val > hi) return hi;
return val;
}
void SegFsm_Init(const SegFsmConfig_t *config)
{
s_cfg = *config;
s_state = SEG_STATE_IDLE;
s_initialized = true;
}
void SegFsm_Start(void)
{
if (s_initialized) {
s_state = SEG_STATE_CORRIDOR;
}
}
SegFsmState_t SegFsm_GetState(void)
{
return s_state;
}
const char* SegFsm_GetStateName(SegFsmState_t s)
{
switch (s) {
case SEG_STATE_IDLE: return "IDLE";
case SEG_STATE_CORRIDOR: return "CORRIDOR";
case SEG_STATE_APPROACH: return "APPROACH";
case SEG_STATE_STOP: return "STOP";
case SEG_STATE_ESTOP: return "E-STOP";
default: return "UNKNOWN";
}
}
void SegFsm_Update(const RawCmd_t *raw_cmd,
const CorridorObs_t *obs,
const CorridorState_t *state,
SegFsmOutput_t *out)
{
if (!s_initialized) {
out->state = SEG_STATE_IDLE;
out->safe_v = 0.0f;
out->safe_w = 0.0f;
return;
}
/* ========================================================
* 1. 全局安全断言:无论在什么状态,满足条件直接超驰
* ======================================================== */
/* 1a. 置信度极低 → 紧急停车 */
if (state->conf < s_cfg.conf_estop_thresh) {
s_state = SEG_STATE_ESTOP;
}
/* ========================================================
* 2. 待命状态:什么都不做
* ======================================================== */
if (s_state == SEG_STATE_IDLE) {
out->state = SEG_STATE_IDLE;
out->safe_v = 0.0f;
out->safe_w = 0.0f;
return;
}
/* ========================================================
* 3. 紧急停车状态:等待置信度恢复
* ======================================================== */
if (s_state == SEG_STATE_ESTOP) {
out->state = SEG_STATE_ESTOP;
out->safe_v = 0.0f;
out->safe_w = 0.0f;
/* 自动恢复开关:当置信度重新回到安全区且前方有路,恢复巡航 */
if (state->conf >= 0.5f) {
s_state = SEG_STATE_CORRIDOR;
}
return;
}
/* ========================================================
* 4. 前向距离判定:决定 CORRIDOR / APPROACH / STOP
* ======================================================== */
bool front_valid = (obs->valid_mask & CORRIDOR_OBS_MASK_FRONT) != 0U;
float d_front = obs->d_front;
if (front_valid) {
if (d_front <= s_cfg.d_front_stop) {
/* 距离过近:到端停车 */
s_state = SEG_STATE_STOP;
} else if (d_front <= s_cfg.d_front_approach) {
/* 进入减速预警区 */
s_state = SEG_STATE_APPROACH;
} else {
/* 前方安全:正常走廊跟踪 */
if (s_state == SEG_STATE_STOP || s_state == SEG_STATE_APPROACH) {
s_state = SEG_STATE_CORRIDOR;
}
}
} else {
/* 前向雷达失效:保守策略,保持当前状态但降速
* (不往 STOP 跳,避免前雷达偶发掉线就急停) */
}
/* ========================================================
* 5. 根据当前状态输出最终安全速度
* ======================================================== */
switch (s_state) {
case SEG_STATE_CORRIDOR: {
/* 正常放行控制器输出 */
out->safe_v = raw_cmd->v;
out->safe_w = raw_cmd->w;
break;
}
case SEG_STATE_APPROACH: {
/* 线性插值减速:
* 当 d_front 从 approach 距离滑向 stop 距离时,
* 速度从 raw_cmd->v 线性衰减至 approach_min_v
*/
float range = s_cfg.d_front_approach - s_cfg.d_front_stop;
float ratio = 1.0f;
if (range > 0.001f) {
ratio = (d_front - s_cfg.d_front_stop) / range;
ratio = seg_clampf(ratio, 0.0f, 1.0f);
}
float v_scaled = s_cfg.approach_min_v + ratio * (raw_cmd->v - s_cfg.approach_min_v);
out->safe_v = seg_clampf(v_scaled, 0.0f, raw_cmd->v);
out->safe_w = raw_cmd->w; // 角速度不限,仍然允许纠偏
break;
}
case SEG_STATE_STOP:
default: {
/* 到端停车 / 紧急停车:零速 */
out->safe_v = 0.0f;
out->safe_w = 0.0f;
break;
}
}
out->state = s_state;
}
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