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main_eval.m
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%% Setup
close all;
clear;
clc;
% add path of functions
addpath(genpath('utils'))
addpath('Continuous_operation')
addpath('Initialization')
% 0: KITTI
% 1: Malaga
% 2: parking
% 3: epfl_parking (customized)
% 4: lausanne_center_nav (customized)
ds = 0;
datasets = {'kitti', 'malaga', 'parking', 'epfl_parking', 'lausanne_center_nav'};
feats = {'SURF', 'Harris', 'BRISK', 'FAST'}; % 'SURF', 'Harris', 'BRISK', 'FAST'
repetition = 5;
for feat_i = 1:numel(feats)
for rep_i = 1:repetition
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% hyperparameters %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
hyper_paras.is_BA = false; % whether to use BA to refine the estimation
hyper_paras.is_refine_pose = true; % whether to refine pose estimation by reprojection error
hyper_paras.feature_extract = 'SURF'; %method to extract features
hyper_paras.feature_extract_options = {'MetricThreshold', 10};
% hyper_paras.feature_extract = 'Harris';
% hyper_paras.feature_extract_options = {'MinQuality',1e-6};
hyper_paras.init_matching_method = 'KLT'; % method to matching keypoints, two options: ['KLT', 'Des_match']
hyper_paras.show_matching_res = false;
hyper_paras.sfm_pose = 'fundamental'; % method to estimate pose from 2D-2D, two options: ['fundamental', 'essential']
% range of vaild landmarks (filter out points behind and too far from the
% camera)
hyper_paras.min_depth = 0;
hyper_paras.max_depth = 100;
% parameters for discarding redundant new candidate keypoints
hyper_paras.r_discard_redundant = 5; % [pixel]
% parameters for deciding whether or not to add a triangulated landmark
hyper_paras.angle_threshold = 5; %start with 10 degree dervie by Rule of the thumb:
% use visualization
hyper_paras.viz_all = false; % true false
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
param_tic = tic;
if ds == 0
% need to set kitti_path to folder containing "05" and "poses"
kitti_path = 'data/kitti';
assert(exist('kitti_path', 'var') ~= 0);
% last_frame = 2760;
last_frame = 540; % 540 20
K = [7.188560000000e+02 0 6.071928000000e+02
0 7.188560000000e+02 1.852157000000e+02
0 0 1];
% tuned hyperparameters
if hyper_paras.is_BA
hyper_paras.feature_extract_options = {'MetricThreshold', 1000}; %less keypoint to speed up
% hyper_paras.feature_extract_options = {'MinQuality',1e-6}; %less keypoint to speed up
else
hyper_paras.feature_extract_options = {'MetricThreshold', 200};
% hyper_paras.feature_extract_options = {'MinQuality',1e-4};
end
% specific hyperparameters
hyper_paras.min_depth = 1;
hyper_paras.r_discard_redundant = 10;
hyper_paras.max_depth = 80;
hyper_paras.angle_threshold = 1;
ground_truth = load([kitti_path '/poses/05.txt']);
ground_truth = ground_truth(:, [end-8 end]);
has_gt = true;
elseif ds == 1
% Path containing the many files of Malaga 7.
malaga_path = 'data/malaga';
assert(exist('malaga_path', 'var') ~= 0);
images = dir([malaga_path ...
'/malaga-urban-dataset-extract-07_rectified_800x600_Images']);
left_images = images(3:2:end);
last_frame = length(left_images);
K = [621.18428 0 404.0076
0 621.18428 309.05989
0 0 1];
% specific hyperparameters
hyper_paras.feature_extract_options = {'MetricThreshold', 400};
hyper_paras.min_depth = 2;
hyper_paras.r_discard_redundant = 10;
hyper_paras.max_depth = 50;
hyper_paras.angle_threshold = 0.8;
has_gt = false;
elseif ds == 2
% Path containing images, depths and all...
parking_path = 'data/parking';
assert(exist('parking_path', 'var') ~= 0);
last_frame = 598;
K = load([parking_path '/K.txt']);
% specific hyperparameters
hyper_paras.feature_extract_options = {'MetricThreshold', 100};
hyper_paras.min_depth = 2;
hyper_paras.r_discard_redundant = 10;
hyper_paras.max_depth = 50;
hyper_paras.angle_threshold = 0.8;
ground_truth = load([parking_path '/poses.txt']);
ground_truth = ground_truth(:, [end-8 end]);
has_gt = true;
elseif ds == 3
% Path containing images, depths and all...
epfl_path = 'data/epfl_parking';
assert(exist('epfl_path', 'var') ~= 0);
image_dir = dir([epfl_path '/image']);
images = image_dir(3:end);
% last_frame = length(images);
last_frame = 170; % large motion blur after them
K = load([epfl_path '/calibration' '/K.txt']);
% no GT available for now!!!
% specific hyperparameters
hyper_paras.feature_extract_options = {'MetricThreshold', 500};
hyper_paras.min_depth = 2;
hyper_paras.r_discard_redundant = 7;
hyper_paras.max_depth = 50;
hyper_paras.angle_threshold = 0.8;
has_gt = false;
elseif ds == 4
% Path containing images, depths and all...
lausanne_path = 'data/lausanne_center_nav';
assert(exist('lausanne_path', 'var') ~= 0);
image_dir = dir([lausanne_path '/image']);
images = image_dir(3:end);
last_frame = 136;
K = load([lausanne_path '/K.txt']);
% no GT available for now!!!
% specific hyperparameters
hyper_paras.feature_extract_options = {'MetricThreshold', 10};
hyper_paras.min_depth = 2;
hyper_paras.r_discard_redundant = 7;
hyper_paras.max_depth = 50;
hyper_paras.angle_threshold = 0.8;
has_gt = false;
else
assert(false);
end
feat = feats{feat_i};
hyper_paras.feature_extract = feat;
switch feat
case 'SURF'
hyper_paras.feature_extract_options = {'MetricThreshold', 200}; % 1336
case 'Harris'
hyper_paras.feature_extract_options = {'MinQuality',2e-4}; % 1294
case 'BRISK'
hyper_paras.feature_extract_options = {'MinQuality',2e-3}; % 1275
case 'FAST'
hyper_paras.feature_extract_options = {'MinContrast',0.11}; % 1362
end
toc_param = toc(param_tic);
%% Bootstrap
% need to set bootstrap_frames for each dataset
bootstrap_tic = tic;
if ds == 0
% hint from project statement
bootstrap_frames = [0 2]; % naming from `000000.png`
img_seq_len = bootstrap_frames(2) - bootstrap_frames(1);
img0 = imread([kitti_path '/05/image_0/' ...
sprintf('%06d.png',bootstrap_frames(1))]);
% img1 = imread([kitti_path '/05/image_0/' ...
% sprintf('%06d.png',bootstrap_frames(2))]);
img_seqs = cell(img_seq_len,1);
% import intermediate images between bootstrap_frames
for i = 1:img_seq_len
fr_idx = i + bootstrap_frames(1);
img_seqs{i} = imread([kitti_path '/05/image_0/' ...
sprintf('%06d.png', fr_idx)]);
end
elseif ds == 1
bootstrap_frames = [1 3]; % elements from `left_images` list
img_seq_len = bootstrap_frames(2) - bootstrap_frames(1);
img0 = rgb2gray(imread([malaga_path ...
'/malaga-urban-dataset-extract-07_rectified_800x600_Images/' ...
left_images(bootstrap_frames(1)).name]));
% img1 = rgb2gray(imread([malaga_path ...
% '/malaga-urban-dataset-extract-07_rectified_800x600_Images/' ...
% left_images(bootstrap_frames(2)).name]));
img_seqs = cell(img_seq_len,1);
% import intermediate images between bootstrap_frames
for i = 1:img_seq_len
fr_idx = i + bootstrap_frames(1);
img_seqs{i} = rgb2gray(imread([malaga_path ...
'/malaga-urban-dataset-extract-07_rectified_800x600_Images/' ...
left_images(fr_idx).name]));
end
elseif ds == 2
bootstrap_frames = [0 2]; % naming from `img_00000.png`
img_seq_len = bootstrap_frames(2) - bootstrap_frames(1);
img0 = rgb2gray(imread([parking_path ...
sprintf('/images/img_%05d.png',bootstrap_frames(1))]));
% img1 = rgb2gray(imread([parking_path ...
% sprintf('/images/img_%05d.png',bootstrap_frames(2))]));
img_seqs = cell(img_seq_len,1);
% import intermediate images between bootstrap_frames
for i = 1:img_seq_len
fr_idx = i + bootstrap_frames(1);
img_seqs{i} = rgb2gray(imread([parking_path ...
sprintf('/images/img_%05d.png',fr_idx)]));
end
elseif ds == 3
bootstrap_frames = [1 3]; % naming from `0000.png`
img_seq_len = bootstrap_frames(2) - bootstrap_frames(1);
img0 = rgb2gray(imread([epfl_path ...
'/image/' ...
images(bootstrap_frames(1)).name]));
img_seqs = cell(img_seq_len,1);
% import intermediate images between bootstrap_frames
for i = 1:img_seq_len
fr_idx = i + bootstrap_frames(1);
img_seqs{i} = rgb2gray(imread([epfl_path ...
'/image/' ...
images(fr_idx).name]));
end
elseif ds == 4
bootstrap_frames = [0 2]; % naming from `0000.png`
img_seq_len = bootstrap_frames(2) - bootstrap_frames(1);
img0 = rgb2gray(imread([lausanne_path ...
sprintf('/image/%04d.png',bootstrap_frames(1))]));
img_seqs = cell(img_seq_len,1);
% import intermediate images between bootstrap_frames
for i = 1:img_seq_len
fr_idx = i + bootstrap_frames(1);
img_seqs{i} = rgb2gray(imread([lausanne_path ...
sprintf('/image/%04d.png',fr_idx)]));
end
else
assert(false);
end
%% Initialization
cameraParams = cameraParameters('IntrinsicMatrix', K');
[init_points,matched_points] = matching_init(img0,img_seqs,hyper_paras);
[T_init_WC,init_points_valid,matched_points_valid] = pose_estimation_init(init_points,matched_points,K,hyper_paras);
[pts3d,matched_points_valid] = triangulation_init(init_points_valid,matched_points_valid,T_init_WC,K,hyper_paras);
% initial results for continuous operation
p_W_landmarks = double(pts3d);
keypoints = double(matched_points_valid);
if hyper_paras.is_refine_pose
T_init_WC = T_refinement(T_init_WC, keypoints', p_W_landmarks', K);
end
toc_bootstrap = toc(bootstrap_tic);
%% Initialize state
ct_tic = tic;
S.X = p_W_landmarks';
S.P = double(fliplr(keypoints))';
S.X = [S.X; 1:size(S.X,2)]; % add a row to indicate the landmark index (for BA)
S.C = [];%(row,col)
S.F = [];%(row,col)
% S.F_W = []; % vectors pointing from optical center to normalized image coordinates (expressed in world coordinate)
S.T = [];
S.est_trans = T_init_WC(1:3,4); % estimated camera translation (3 x N)
temp = T_init_WC(1:3,1:3);
S.est_rot = temp(:);% estimated camera rotation (9 x N)
S.num_X = size(S.X,2);
S.num_C = size(S.C,2);
S.num_new = 0;
% struct for bundle adjustment
B.window_size = 3; %size of window to do bundle adjustment (# of keyframes)
B.keyframe_d = 2; % we choose keyframe every (keyframe_d+1) frame
B.num_key = 1; % number of keyframes stored
B.count_frame = 0; % auxiliary variable to decide whether next is a key frame, taking value from [0,..,B.keyframe_d]
B.m = size(S.X,2);
B.tau = HomogMatrix2twist(T_init_WC);
B.landmarks = S.X;
B.observation = cell(1,B.window_size);
temp = flipud(S.P);
B.observation{1} = [B.m;temp(:);(1:B.m)'];
B.normal_frame_refine = cell(1,(B.window_size-1)*B.keyframe_d);
B.num_normal_frame = 0;
B.new_idx = B.m + 1; %index when adding new keypoints
% database_image = imread('data/data_exe7/000000.png');
% bootstrap_frames = zeros(2,1);
% last_frame = 9;
switch ds % 0: KITTI, 1: Malaga, 2: parking
case 0
gt_scale = ground_truth./(ground_truth(3,2)/S.est_trans(3,1)); % for kitti
case 1
gt_scale = zeros(600,2);
case 2
gt_scale = ground_truth./(ground_truth(bootstrap_frames(2)+1,1)/S.est_trans(1,1)); % for praking
case 3
% for epfl_parking
gt_scale = zeros(last_frame+bootstrap_frames(2),2);
case 4
% for lausanne_center_nav
gt_scale = zeros(last_frame+bootstrap_frames(2),2);
end
database_image = img_seqs{end};
if hyper_paras.viz_all
plot_frame_stat(...
database_image,...
S,...
gt_scale,...
2,...
bootstrap_frames(2),...
hyper_paras.max_depth,...
has_gt...
)
end
%% Continuous operation
% generate and initialize KLT tracker
% for landmark tracking
KLT_tracker_L = vision.PointTracker('BlockSize',[21 21],'NumPyramidLevels',5,...
'MaxIterations',20,'MaxBidirectionalError',6);
initialize(KLT_tracker_L,fliplr(S.P'),database_image);
prev_img = database_image;
% for candidate keypoints tracking
KLT_tracker_C = vision.PointTracker('BlockSize',[21 21],'NumPyramidLevels',5,...
'MaxIterations',20,'MaxBidirectionalError',6);
range = (bootstrap_frames(2)+1):last_frame;
for i = range
fprintf('\n\nProcessing frame %d\n=====================\n', i);
if ds == 0
image = imread([kitti_path '/05/image_0/' sprintf('%06d.png',i)]);
elseif ds == 1
image = rgb2gray(imread([malaga_path ...
'/malaga-urban-dataset-extract-07_rectified_800x600_Images/' ...
left_images(i).name]));
elseif ds == 2
image = im2uint8(rgb2gray(imread([parking_path ...
sprintf('/images/img_%05d.png',i)])));
elseif ds == 3
image = rgb2gray(imread([epfl_path ...
'/image/' ...
images(i).name]));
elseif ds == 4
image = im2uint8(rgb2gray(imread([lausanne_path ...
sprintf('/image/%04d.png',i)])));
else
assert(false);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%% associate keypoints %%%%%%%%%%%%%%%%%%%%%%%
% detect keypoints
[features, valid_key_candidates] = genKeypoints(image,hyper_paras.feature_extract,hyper_paras.feature_extract_options);
% KLT tracking
[matched_points,validity] = KLT_tracker_L(image);
matched_points_valid = fliplr(matched_points(validity,:)); % (u,v) to (row,col)
disp(length(validity))
disp(sum(validity) / length(validity))
% perform RANSAC to find best Pose and inliers
[R_C_W, t_C_W, inlier_mask, max_num_inliers_history, num_iteration_history] = ...
ransacLocalization(matched_points_valid', S.X(1:3,validity), K);
T_C_W = [R_C_W, t_C_W; zeros(1,3), 1];
T_W_C = inv(T_C_W);
% discard unmatched landmarks
S.P = matched_points_valid((inlier_mask)>0,:)';
S.X = S.X(:,validity);
S.X = S.X(:,(inlier_mask)>0);
if hyper_paras.is_refine_pose
T_W_C = T_refinement(T_W_C, flipud(S.P), S.X(1:3,:), K);
end
S.est_trans = [S.est_trans, T_W_C(1:3,4)];
R_W_C = T_W_C(1:3,1:3);
S.est_rot = [S.est_rot, R_W_C(:)];
%%%%%%%%%%%%%%%%%%%%%%%%%%%% Adding new keypoints and candidates %%%%%%%%%%%%%%%%%%%%%%%
% track candidate keypoints
if ~isempty(S.C)
[S,B] = update_landmarks(S,B,KLT_tracker_C,image,K,hyper_paras);
end
if hyper_paras.is_BA
[S,B] = VO_bundle_adjust(S,B,T_W_C,K);
end
S = update_candidate(S,valid_key_candidates,image,K,hyper_paras);
% update KLT_tracker (for landmarks)
release(KLT_tracker_L);
initialize(KLT_tracker_L,fliplr(S.P'),image);
% update KLT_tracker (for candidate)
if ~isempty(S.C)
release(KLT_tracker_C);
initialize(KLT_tracker_C,fliplr(S.C'),image);
end
S.num_X = [S.num_X; size(S.X,2)];
S.num_C = [S.num_C; size(S.C,2)];
if hyper_paras.viz_all
plot_frame_stat(...
image,...
S,...
gt_scale,...
2,...
i,...
hyper_paras.max_depth,...
has_gt...
)
% Makes sure that plots refresh.
pause(0.01);
end
prev_img = image;
end
toc_ct = toc(ct_tic);
frame_init = img_seq_len+1;
frame_ct = numel(range);
fps_ct = frame_ct/toc_ct;
total_time = toc_param + toc_bootstrap + toc_ct;
% TIC, TOC, errs autosave
eval_path = './eval';
dataset_str = ['dataset@' datasets{ds+1}];
feat_str = ['feat@' hyper_paras.feature_extract];
now_str = char(datetime('now','TimeZone','local','Format','HH_mm_ss'));
time_str = ['time@' now_str];
experiment_name = strcat(dataset_str, '_', feat_str, '_', time_str);
if ~hyper_paras.is_refine_pose
experiment_name = strcat(experiment_name, '_NoRefined');
end
save_name = [eval_path '/' experiment_name];
if has_gt
errs = quantitative_eval(...
ground_truth,...
S,...
bootstrap_frames,...
save_name);
end
save([save_name, '_res.mat'], ...
'errs', 'S', ...
'total_time', 'frame_init', 'frame_ct', ...
"toc_param", "toc_bootstrap","toc_ct", "fps_ct")
end
end