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# -*- coding: utf-8 -*-
"""
AP-S Tracker Class.
Author: Jason Merlo
Maintainer: Jason Merlo (merlojas@msu.edu)
"""
import numpy as np # Storing data
from pyratk.datatypes.ts_data import TimeSeries # storing data
from pyratk.datatypes.motion import StateMatrix
from pyratk.datatypes.geometry import Point
from pyratk.datatypes.radar import Detection
class ApsTracker(object):
"""Class to track detections using 4 doppler measurements."""
# === INITIALIZATION METHODS ============================================= #
def __init__(self, daq, receiver_array):
"""
Initialize tracker class.
"""
# copy arguments into attributes
self.daq = daq
self.receiver_array = receiver_array
self.detections = []
self.pulse = self.receiver_array[0].transmitter.pulses[0]
self.chirp_rate = self.pulse.bw / self.pulse.delay
# Configure control signals
self.connect_control_signals()
def connect_control_signals(self):
"""Initialize control signals."""
self.receiver_array.data_available_signal.connect(self.update)
self.daq.reset_signal.connect(self.reset)
# ====== CONTROL METHODS ================================================= #
def update(self):
"""
Update position of track based on new data.
Called by data_available_signal signal in DAQ.
"""
self.detections.clear()
# Add new Detection objects to detections list
fft_mats = [self.receiver_array[0].fft_mat, self.receiver_array[1].fft_mat]
var0=np.power(np.mean(self.receiver_array[0].fft_mat,axis=0),2)
var1=np.power(np.mean(self.receiver_array[1].fft_mat,axis=0),2)
#var0=signal.resample_poly(var00,4,1)
#var1=signal.resample_poly(var01,4,1)
f=np.linspace(-50000,50000,num=var0.size-1)
r_d0=np.abs(f[np.argmax(var0)]*3e8/self.chirp_rate/2)
r_d1=np.abs(f[np.argmax(var1)]*3e8/self.chirp_rate/2)
theta=np.arcsin((r_d0-r_d1)/0.3864)+0.5*np.pi
R=0.5*(r_d0+r_d1)
# loc is cylindrical (R, theta, Z), but Z is ignored by plot
#R = np.random.rand() * 15
#theta = np.random.rand() * np.pi
loc = Point(R, theta, 0.0)
new_detection = Detection(loc)
self.detections.append(new_detection)
def reset(self):
"""Reset all temporal elements."""
print("(tracker.py) Resetting tracker...")
self.detections.clear()
# class TrackerEvaluator(Object):
# def __init__():