def update_dtw(data_feature, DTW): ids = data_feature.keys() for _id in ids: DTW[_id] = {} for _id in ids: for key in ids: try: DTW[_id][key] DTW[key][_id] except KeyError: value = Dtw(data_feature[_id], data_feature[key], calDistance) value = value.calculate() / len(value.get_path()) DTW[_id][key] = value DTW[key][_id] = value
def update_dtw(data_feature, DTW): ids = data_feature.keys() for _id in ids: DTW[_id] = {} for _id in ids: for key in ids: try: DTW[_id][key] DTW[key][_id] except KeyError: value = Dtw(data_feature[_id], data_feature[key], calDistance) value = value.calculate()/len(value.get_path()) DTW[_id][key] = value DTW[key][_id] = value
def fullMatchDistance(route1, route2, step1=100000, step2=100000, method='lcs', radius1=2000): ## see how if "route1" can partially match with "route" ## will be mainly used in matching with transit route # print(lst[0],lst[-1]) # print(route) dis = 999999 if len(route1) < 2 or len(route2) < 2: return dis ## using DTW Iteration if method == 'dtw': new_dis = dynamicTimeWarp(refineRoute(route1, step1), refineRoute(route2, step2), calDistance) ## using DTW Recursion if method == 'DTW': aa = Dtw(refineRoute(route1, step1), refineRoute(route2, step2), calDistance) new_dis = aa.calculate_distance() ## using symmetric DTW if method == 'DTWSym': aa = DtwSym(refineRoute(route1, step1), refineRoute(route2, step2), calDistance) new_dis = aa.calculate_distance() ## using Asymmetric DTW if method == 'DTWAsym': aa = DtwAsym(refineRoute(route1, step1), refineRoute(route2, step2), calDistance) new_dis = aa.calculate_distance() ## using Frechet if method == 'Frechet': new_dis = Frechet(refineRoute(route1, step1), refineRoute(route2, step2)) ## using lcs if method == 'lcs': new_dis = lcsScore(refineRoute(route1, step1), refineRoute(route2, step2), radius1) if new_dis < dis: dis = new_dis # print(dis) return dis
def existingMatchDistance(route1, route2, step1=100000, step2=100000, method='lcs', radius1=2000): ## see how if "route1" can match with an existing route "route2" ## will be mainly used in matching with transit route # print(lst[0],lst[-1]) # print(route) dis = 999999 for start_route2 in range(len(route2)): coverage_start = find_near(route1, route2[start_route2], radius1) if coverage_start != []: break for end_route2 in range(len(route2) - 1, -1, -1): coverage_end = find_near(route1, route2[end_route2], radius1) if coverage_end != []: break # print(start_route2,end_route2) # print(coverage_start,coverage_end) if abs(start_route2 - end_route2) > 1 and start_route2 != len(route2) and end_route2 != 0: start_route1 = coverage_start[0] end_route1 = coverage_end[-1] if abs(start_route1 - end_route1) >= 1: ## using DTW if method == 'DTW': if start_route1 < end_route1: aa = Dtw( refineRoute(route1[start_route1:end_route1 + 1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) elif end_route1 < start_route1: aa = Dtw( refineRoute(route1[end_route1:start_route1 + 1][::-1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) new_dis = aa.calculate_distance() ## using symmetric DTW if method == 'DTWSym': if start_route1 < end_route1: aa = Dtw( refineRoute(route1[start_route1:end_route1 + 1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) elif end_route1 < start_route1: aa = Dtw( refineRoute(route1[end_route1:start_route1 + 1][::-1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) new_dis = aa.calculate_distance() ## using DTW if method == 'DTWAsym': if start_route1 < end_route1: aa = Dtw( refineRoute(route1[start_route1:end_route1 + 1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) elif end_route1 < start_route1: aa = Dtw( refineRoute(route1[end_route1:start_route1 + 1][::-1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), calDistance) new_dis = aa.calculate_distance() ## using Frechet if method == 'Frechet': if start_route1 < end_route1: new_dis = Frechet( refineRoute(route1[start_route1:end_route1 + 1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2)) elif end_route1 < start_route1: new_dis = Frechet( refineRoute(route1[end_route1:start_route1 + 1][::-1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2)) ## using lcs if method == 'lcs': if start_route1 < end_route1: new_dis = lcsScore( refineRoute(route1[start_route1:end_route1 + 1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), radius1) elif end_route1 < start_route1: # print(route1[start_route1:end_route1-1]) # print(start_route1,end_route1) # print(len(route1[start_route1:end_route1-1:-1])) new_dis = lcsScore( refineRoute(route1[end_route1:start_route1 + 1][::-1], step1), refineRoute(route2[start_route2:end_route2 + 1], step2), radius1) if new_dis < dis: dis = new_dis # print(dis) return [start_route2, end_route2, dis]