find_object::Settings Member List

This is the complete list of members for find_object::Settings, including all inherited members.

createDescriptorExtractor()	find_object::Settings	static
createFlannIndexParams()	find_object::Settings	static
createKeypointDetector()	find_object::Settings	static
currentDescriptorType()	find_object::Settings	static
currentDetectorType()	find_object::Settings	static
currentNearestNeighborType()	find_object::Settings	static
defaultParameters_	find_object::Settings	privatestatic
descriptions_	find_object::Settings	privatestatic
dummyInit_	find_object::Settings	privatestatic
getDefaultParameters()	find_object::Settings	inlinestatic
getDescriptions()	find_object::Settings	inlinestatic
getFlannDistanceType()	find_object::Settings	static
getHomographyMethod()	find_object::Settings	static
getParameter(const QString &key)	find_object::Settings	inlinestatic
getParameters()	find_object::Settings	inlinestatic
getParametersType()	find_object::Settings	inlinestatic
iniDefaultFileName()	find_object::Settings	inlinestatic
iniDefaultPath()	find_object::Settings	static
iniPath()	find_object::Settings	static
iniPath_	find_object::Settings	privatestatic
init(const QString &fileName)	find_object::Settings	static
isBruteForceNearestNeighbor()	find_object::Settings	static
loadSettings(const QString &fileName=QString())	find_object::Settings	static
loadWindowSettings(QByteArray &windowGeometry, QByteArray &windowState, const QString &fileName=QString())	find_object::Settings	static
PARAMETER(Camera, 1deviceId, int, 0,"Device ID (default 0).")	find_object::Settings	private
PARAMETER(Camera, 2imageWidth, int, 0,"Image width (0 means default width from camera).")	find_object::Settings	private
PARAMETER(Camera, 3imageHeight, int, 0,"Image height (0 means default height from camera).")	find_object::Settings	private
PARAMETER(Camera, 4imageRate, double, 10.0,"Image rate in Hz (0 Hz means as fast as possible).")	find_object::Settings	private
PARAMETER(Camera, 5mediaPath, QString,"","Video file or directory of images. If set, the camera is not used. See General->videoFormats and General->imageFormats for available formats.")	find_object::Settings	private
PARAMETER(Camera, 6useTcpCamera, bool, false,"Use TCP/IP input camera.")	find_object::Settings	private
PARAMETER(Camera, 8port, int, 0,"The images server's port when useTcpCamera is checked. Only one client at the same time is allowed.")	find_object::Settings	private
PARAMETER(Camera, 9queueSize, int, 1,"Maximum images buffered from TCP. If 0, all images are buffered.")	find_object::Settings	private
PARAMETER(Feature2D, 3MaxFeatures, int, 0,"Maximum features per image. If the number of features extracted is over this threshold, only X features with the highest response are kept. 0 means all features are kept.")	find_object::Settings	private
PARAMETER(Feature2D, 4Affine, bool, false,"(ASIFT) Extract features on multiple affine transformations of the image.")	find_object::Settings	private
PARAMETER(Feature2D, 5AffineCount, int, 6,"(ASIFT) Higher the value, more affine transformations will be done.")	find_object::Settings	private
PARAMETER(Feature2D, 6SubPix, bool, false,"Refines the corner locations. With SIFT/SURF, features are already subpixel, so no need to activate this.")	find_object::Settings	private
PARAMETER(Feature2D, 7SubPixWinSize, int, 3,"Half of the side length of the search window. For example, if winSize=Size(5,5) , then a 5*2+1 x 5*2+1 = 11 x 11 search window is used.")	find_object::Settings	private
PARAMETER(Feature2D, 8SubPixIterations, int, 30,"The process of corner position refinement stops after X iterations.")	find_object::Settings	private
PARAMETER(Feature2D, 9SubPixEps, float, 0.02f,"The process of corner position refinement stops when the corner position moves by less than epsilon on some iteration.")	find_object::Settings	private
PARAMETER(Feature2D, Brief_bytes, int, 32,"Bytes is a length of descriptor in bytes. It can be equal 16, 32 or 64 bytes.")	find_object::Settings	private
PARAMETER(Feature2D, Dense_initFeatureScale, float, 1.f,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_featureScaleLevels, int, 1,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_featureScaleMul, float, 0.1f,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_initXyStep, int, 6,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_initImgBound, int, 0,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_varyXyStepWithScale, bool, true,"")	find_object::Settings	private
PARAMETER(Feature2D, Dense_varyImgBoundWithScale, bool, false,"")	find_object::Settings	private
PARAMETER(Feature2D, Fast_threshold, int, 10,"Threshold on difference between intensity of the central pixel and pixels of a circle around this pixel.")	find_object::Settings	private
PARAMETER(Feature2D, Fast_nonmaxSuppression, bool, true,"If true, non-maximum suppression is applied to detected corners (keypoints).")	find_object::Settings	private
PARAMETER(Feature2D, Fast_gpu, bool, false,"GPU-FAST: Use GPU version of FAST. This option is enabled only if OpenCV is built with CUDA and GPUs are detected.")	find_object::Settings	private
PARAMETER(Feature2D, Fast_keypointsRatio, double, 0.05,"Used with FAST GPU (OpenCV 2).")	find_object::Settings	private
PARAMETER(Feature2D, Fast_maxNpoints, int, 5000,"Used with FAST GPU (OpenCV 3).")	find_object::Settings	private
PARAMETER(Feature2D, AGAST_threshold, int, 10,"Threshold on difference between intensity of the central pixel and pixels of a circle around this pixel.")	find_object::Settings	private
PARAMETER(Feature2D, AGAST_nonmaxSuppression, bool, true,"If true, non-maximum suppression is applied to detected corners (keypoints).")	find_object::Settings	private
PARAMETER(Feature2D, KAZE_extended, bool, false,"Set to enable extraction of extended (128-byte) descriptor.")	find_object::Settings	private
PARAMETER(Feature2D, KAZE_upright, bool, false,"Set to enable use of upright descriptors (non rotation-invariant).")	find_object::Settings	private
PARAMETER(Feature2D, KAZE_threshold, float, 0.001f,"Detector response threshold to accept point")	find_object::Settings	private
PARAMETER(Feature2D, KAZE_nOctaves, int, 4,"Maximum octave evolution of the image.")	find_object::Settings	private
PARAMETER(Feature2D, KAZE_nOctaveLayers, int, 4,"Default number of sublevels per scale level.")	find_object::Settings	private
PARAMETER(Feature2D, AKAZE_descriptorSize, int, 0,"Size of the descriptor in bits. 0 -> Full size.")	find_object::Settings	private
PARAMETER(Feature2D, AKAZE_descriptorChannels, int, 3,"Number of channels in the descriptor (1, 2, 3).")	find_object::Settings	private
PARAMETER(Feature2D, AKAZE_threshold, float, 0.001f,"Detector response threshold to accept point.")	find_object::Settings	private
PARAMETER(Feature2D, AKAZE_nOctaves, int, 4,"Maximum octave evolution of the image.")	find_object::Settings	private
PARAMETER(Feature2D, AKAZE_nOctaveLayers, int, 4,"Default number of sublevels per scale level.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_maxCorners, int, 1000,"Maximum number of corners to return. If there are more corners than are found, the strongest of them is returned.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_qualityLevel, double, 0.01,"Parameter characterizing the minimal accepted quality of image corners. The parameter value is multiplied by the best corner quality measure, which is the minimal eigenvalue (see cornerMinEigenVal ) or the Harris function response (see cornerHarris ). The corners with the quality measure less than the product are rejected. For example, if the best corner has the quality measure = 1500, and the qualityLevel=0.01 , then all the corners with the quality measure less than 15 are rejected.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_minDistance, double, 1,"Minimum possible Euclidean distance between the returned corners.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_blockSize, int, 3,"Size of an average block for computing a derivative covariation matrix over each pixel neighborhood. See cornerEigenValsAndVecs.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_useHarrisDetector, bool, false,"Parameter indicating whether to use a Harris detector (see cornerHarris) or cornerMinEigenVal.")	find_object::Settings	private
PARAMETER(Feature2D, GFTT_k, double, 0.04,"Free parameter of the Harris detector.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_nFeatures, int, 500,"The maximum number of features to retain.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_scaleFactor, float, 1.2f,"Pyramid decimation ratio, greater than 1. scaleFactor==2 means the classical pyramid, where each next level has 4x less pixels than the previous, but such a big scale factor will degrade feature matching scores dramatically. On the other hand, too close to 1 scale factor will mean that to cover certain scale range you will need more pyramid levels and so the speed will suffer.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_nLevels, int, 8,"The number of pyramid levels. The smallest level will have linear size equal to input_image_linear_size/pow(scaleFactor, nlevels).")	find_object::Settings	private
PARAMETER(Feature2D, ORB_edgeThreshold, int, 31,"This is size of the border where the features are not detected. It should roughly match the patchSize parameter.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_firstLevel, int, 0,"It should be 0 in the current implementation.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_WTA_K, int, 2,"The number of points that produce each element of the oriented BRIEF descriptor. The default value 2 means the BRIEF where we take a random point pair and compare their brightnesses, so we get 0/1 response. Other possible values are 3 and 4. For example, 3 means that we take 3 random points (of course, those point coordinates are random, but they are generated from the pre-defined seed, so each element of BRIEF descriptor is computed deterministically from the pixel rectangle), find point of maximum brightness and output index of the winner (0, 1 or 2). Such output will occupy 2 bits, and therefore it will need a special variant of Hamming distance, denoted as NORM_HAMMING2 (2 bits per bin). When WTA_K=4, we take 4 random points to compute each bin (that will also occupy 2 bits with possible values 0, 1, 2 or 3).")	find_object::Settings	private
PARAMETER(Feature2D, ORB_scoreType, int, 0,"The default HARRIS_SCORE=0 means that Harris algorithm is used to rank features (the score is written to KeyPoint::score and is used to retain best nfeatures features); FAST_SCORE=1 is alternative value of the parameter that produces slightly less stable keypoints, but it is a little faster to compute.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_patchSize, int, 31,"size of the patch used by the oriented BRIEF descriptor. Of course, on smaller pyramid layers the perceived image area covered by a feature will be larger.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_gpu, bool, false,"GPU-ORB: Use GPU version of ORB. This option is enabled only if OpenCV is built with CUDA and GPUs are detected.")	find_object::Settings	private
PARAMETER(Feature2D, ORB_blurForDescriptor, bool, false,"GPU-ORB: blurForDescriptor parameter (OpenCV 3).")	find_object::Settings	private
PARAMETER(Feature2D, MSER_delta, int, 5,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_minArea, int, 60,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_maxArea, int, 14400,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_maxVariation, double, 0.25,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_minDiversity, double, 0.2,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_maxEvolution, int, 200,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_areaThreshold, double, 1.01,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_minMargin, double, 0.003,"")	find_object::Settings	private
PARAMETER(Feature2D, MSER_edgeBlurSize, int, 5,"")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_nfeatures, int, 0,"The number of best features to retain. The features are ranked by their scores (measured in SIFT algorithm as the local contrast).")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_nOctaveLayers, int, 3,"The number of layers in each octave. 3 is the value used in D. Lowe paper. The number of octaves is computed automatically from the image resolution.")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_contrastThreshold, double, 0.04,"The contrast threshold used to filter out weak features in semi-uniform (low-contrast) regions. The larger the threshold, the less features are produced by the detector.")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_edgeThreshold, double, 10,"The threshold used to filter out edge-like features. Note that the its meaning is different from the contrastThreshold, i.e. the larger the edgeThreshold, the less features are filtered out (more features are retained).")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_sigma, double, 1.6,"The sigma of the Gaussian applied to the input image at the octave #0. If your image is captured with a weak camera with soft lenses, you might want to reduce the number.")	find_object::Settings	private
PARAMETER(Feature2D, SIFT_rootSIFT, bool, false,"RootSIFT descriptors.")	find_object::Settings	private
PARAMETER(Feature2D, SURF_hessianThreshold, double, 600.0,"Threshold for hessian keypoint detector used in SURF.")	find_object::Settings	private
PARAMETER(Feature2D, SURF_nOctaves, int, 4,"Number of pyramid octaves the keypoint detector will use.")	find_object::Settings	private
PARAMETER(Feature2D, SURF_nOctaveLayers, int, 2,"Number of octave layers within each octave.")	find_object::Settings	private
PARAMETER(Feature2D, SURF_extended, bool, true,"Extended descriptor flag (true - use extended 128-element descriptors; false - use 64-element descriptors).")	find_object::Settings	private
PARAMETER(Feature2D, SURF_upright, bool, false,"Up-right or rotated features flag (true - do not compute orientation of features; false - compute orientation).")	find_object::Settings	private
PARAMETER(Feature2D, SURF_gpu, bool, false,"GPU-SURF: Use GPU version of SURF. This option is enabled only if OpenCV is built with CUDA and GPUs are detected.")	find_object::Settings	private
PARAMETER(Feature2D, SURF_keypointsRatio, float, 0.01f,"Used with SURF GPU.")	find_object::Settings	private
PARAMETER(Feature2D, Star_maxSize, int, 45,"")	find_object::Settings	private
PARAMETER(Feature2D, Star_responseThreshold, int, 30,"")	find_object::Settings	private
PARAMETER(Feature2D, Star_lineThresholdProjected, int, 10,"")	find_object::Settings	private
PARAMETER(Feature2D, Star_lineThresholdBinarized, int, 8,"")	find_object::Settings	private
PARAMETER(Feature2D, Star_suppressNonmaxSize, int, 5,"")	find_object::Settings	private
PARAMETER(Feature2D, BRISK_thresh, int, 30,"FAST/AGAST detection threshold score.")	find_object::Settings	private
PARAMETER(Feature2D, BRISK_octaves, int, 3,"Detection octaves. Use 0 to do single scale.")	find_object::Settings	private
PARAMETER(Feature2D, BRISK_patternScale, float, 1.0f,"Apply this scale to the pattern used for sampling the neighbourhood of a keypoint.")	find_object::Settings	private
PARAMETER(Feature2D, FREAK_orientationNormalized, bool, true,"Enable orientation normalization.")	find_object::Settings	private
PARAMETER(Feature2D, FREAK_scaleNormalized, bool, true,"Enable scale normalization.")	find_object::Settings	private
PARAMETER(Feature2D, FREAK_patternScale, float, 22.0f,"Scaling of the description pattern.")	find_object::Settings	private
PARAMETER(Feature2D, FREAK_nOctaves, int, 4,"Number of octaves covered by the detected keypoints.")	find_object::Settings	private
PARAMETER(Feature2D, LUCID_kernel, int, 1,"Kernel for descriptor construction, where 1=3x3, 2=5x5, 3=7x7 and so forth.")	find_object::Settings	private
PARAMETER(Feature2D, LUCID_blur_kernel, int, 2,"Kernel for blurring image prior to descriptor construction, where 1=3x3, 2=5x5, 3=7x7 and so forth.")	find_object::Settings	private
PARAMETER(Feature2D, LATCH_bytes, int, 32,"Size of the descriptor - can be 64, 32, 16, 8, 4, 2 or 1.")	find_object::Settings	private
PARAMETER(Feature2D, LATCH_rotationInvariance, bool, true,"Whether or not the descriptor should compansate for orientation changes.")	find_object::Settings	private
PARAMETER(Feature2D, LATCH_half_ssd_size, int, 3,"The size of half of the mini-patches size. For example, if we would like to compare triplets of patches of size 7x7x then the half_ssd_size should be (7-1)/2 = 3.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_radius, float, 15,"Radius of the descriptor at the initial scale.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_q_radius, int, 3,"Amount of radial range division quantity.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_q_theta, int, 8,"Amount of angular range division quantity.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_q_hist, int, 8,"Amount of gradient orientations range division quantity.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_interpolation, bool, true,"Switch to disable interpolation for speed improvement at minor quality loss.")	find_object::Settings	private
PARAMETER(Feature2D, DAISY_use_orientation, bool, false,"Sample patterns using keypoints orientation, disabled by default.")	find_object::Settings	private
PARAMETER(NearestNeighbor, 3nndrRatioUsed, bool, true,"Nearest neighbor distance ratio approach to accept the best match.")	find_object::Settings	private
PARAMETER(NearestNeighbor, 4nndrRatio, float, 0.8f,"Nearest neighbor distance ratio.")	find_object::Settings	private
PARAMETER(NearestNeighbor, 5minDistanceUsed, bool, false,"Minimum distance with the nearest descriptor to accept a match.")	find_object::Settings	private
PARAMETER(NearestNeighbor, 6minDistance, float, 1.6f,"Minimum distance. You can look at top of this panel where minimum and maximum distances are shown to properly set this parameter depending of the descriptor used.")	find_object::Settings	private
PARAMETER(NearestNeighbor, 7ConvertBinToFloat, bool, false,"Convert binary descriptor to float before quantization, so you can use FLANN strategies with them.")	find_object::Settings	private
PARAMETER(NearestNeighbor, BruteForce_gpu, bool, false,"Brute force GPU")	find_object::Settings	private
PARAMETER(NearestNeighbor, search_checks, int, 32,"The number of times the tree(s) in the index should be recursively traversed. A higher value for this parameter would give better search precision, but also take more time. If automatic configuration was used when the index was created, the number of checks required to achieve the specified precision was also computed, in which case this parameter is ignored.")	find_object::Settings	private
PARAMETER(NearestNeighbor, search_eps, float, 0,"")	find_object::Settings	private
PARAMETER(NearestNeighbor, search_sorted, bool, true,"")	find_object::Settings	private
PARAMETER(NearestNeighbor, KDTree_trees, int, 4,"The number of parallel kd-trees to use. Good values are in the range [1..16].")	find_object::Settings	private
PARAMETER(NearestNeighbor, Composite_trees, int, 4,"The number of parallel kd-trees to use. Good values are in the range [1..16].")	find_object::Settings	private
PARAMETER(NearestNeighbor, Composite_branching, int, 32,"The branching factor to use for the hierarchical k-means tree.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Composite_iterations, int, 11,"The maximum number of iterations to use in the k-means clustering stage when building the k-means tree. A value of -1 used here means that the k-means clustering should be iterated until convergence.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Composite_centers_init, QString,"0:RANDOM;GONZALES;KMEANSPP","The algorithm to use for selecting the initial centers when performing a k-means clustering step. The possible values are CENTERS_RANDOM (picks the initial cluster centers randomly), CENTERS_GONZALES (picks the initial centers using Gonzales’ algorithm) and CENTERS_KMEANSPP (picks the initial centers using the algorithm suggested in arthur_kmeanspp_2007 ).")	find_object::Settings	private
PARAMETER(NearestNeighbor, Composite_cb_index, double, 0.2,"This parameter (cluster boundary index) influences the way exploration is performed in the hierarchical kmeans tree. When cb_index is zero the next kmeans domain to be explored is chosen to be the one with the closest center. A value greater then zero also takes into account the size of the domain.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Autotuned_target_precision, double, 0.8,"Is a number between 0 and 1 specifying the percentage of the approximate nearest-neighbor searches that return the exact nearest-neighbor. Using a higher value for this parameter gives more accurate results, but the search takes longer. The optimum value usually depends on the application.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Autotuned_build_weight, double, 0.01,"Specifies the importance of the index build time raported to the nearest-neighbor search time. In some applications it’s acceptable for the index build step to take a long time if the subsequent searches in the index can be performed very fast. In other applications it’s required that the index be build as fast as possible even if that leads to slightly longer search times.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Autotuned_memory_weight, double, 0,"Is used to specify the tradeoff between time (index build time and search time) and memory used by the index. A value less than 1 gives more importance to the time spent and a value greater than 1 gives more importance to the memory usage.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Autotuned_sample_fraction, double, 0.1,"Is a number between 0 and 1 indicating what fraction of the dataset to use in the automatic parameter configuration algorithm. Running the algorithm on the full dataset gives the most accurate results, but for very large datasets can take longer than desired. In such case using just a fraction of the data helps speeding up this algorithm while still giving good approximations of the optimum parameters.")	find_object::Settings	private
PARAMETER(NearestNeighbor, KMeans_branching, int, 32,"The branching factor to use for the hierarchical k-means tree.")	find_object::Settings	private
PARAMETER(NearestNeighbor, KMeans_iterations, int, 11,"The maximum number of iterations to use in the k-means clustering stage when building the k-means tree. A value of -1 used here means that the k-means clustering should be iterated until convergence.")	find_object::Settings	private
PARAMETER(NearestNeighbor, KMeans_centers_init, QString,"0:RANDOM;GONZALES;KMEANSPP","The algorithm to use for selecting the initial centers when performing a k-means clustering step. The possible values are CENTERS_RANDOM (picks the initial cluster centers randomly), CENTERS_GONZALES (picks the initial centers using Gonzales’ algorithm) and CENTERS_KMEANSPP (picks the initial centers using the algorithm suggested in arthur_kmeanspp_2007 ).")	find_object::Settings	private
PARAMETER(NearestNeighbor, KMeans_cb_index, double, 0.2,"This parameter (cluster boundary index) influences the way exploration is performed in the hierarchical kmeans tree. When cb_index is zero the next kmeans domain to be explored is chosen to be the one with the closest center. A value greater then zero also takes into account the size of the domain.")	find_object::Settings	private
PARAMETER(NearestNeighbor, Lsh_table_number, int, 12,"The number of hash tables to use (between 10 and 30 usually).")	find_object::Settings	private
PARAMETER(NearestNeighbor, Lsh_key_size, int, 20,"The size of the hash key in bits (between 10 and 20 usually).")	find_object::Settings	private
PARAMETER(NearestNeighbor, Lsh_multi_probe_level, int, 2,"The number of bits to shift to check for neighboring buckets (0 is regular LSH, 2 is recommended).")	find_object::Settings	private
PARAMETER(General, autoStartCamera, bool, false,"Automatically start the camera when the application is opened.")	find_object::Settings	private
PARAMETER(General, autoUpdateObjects, bool, true,"Automatically update objects on every parameter changes, otherwise you would need to press \"Update objects\" on the objects panel.")	find_object::Settings	private
PARAMETER(General, nextObjID, uint, 1,"Next object ID to use.")	find_object::Settings	private
PARAMETER(General, imageFormats, QString,"*.png *.jpg *.bmp *.tiff *.ppm *.pgm","Image formats supported.")	find_object::Settings	private
PARAMETER(General, videoFormats, QString,"*.avi *.m4v *.mp4","Video formats supported.")	find_object::Settings	private
PARAMETER(General, mirrorView, bool, false,"Flip the camera image horizontally (like all webcam applications).")	find_object::Settings	private
PARAMETER(General, invertedSearch, bool, true,"Instead of matching descriptors from the objects to those in a vocabulary created with descriptors extracted from the scene, we create a vocabulary from all the objects' descriptors and we match scene's descriptors to this vocabulary. It is the inverted search mode.")	find_object::Settings	private
PARAMETER(General, controlsShown, bool, false,"Show play/image seek controls (useful with video file and directory of images modes).")	find_object::Settings	private
PARAMETER(General, threads, int, 1,"Number of threads used for objects matching and homography computation. 0 means as many threads as objects. On InvertedSearch mode, multi-threading has only effect on homography computation.")	find_object::Settings	private
PARAMETER(General, multiDetection, bool, false,"Multiple detection of the same object.")	find_object::Settings	private
PARAMETER(General, multiDetectionRadius, int, 30,"Ignore detection of the same object in X pixels radius of the previous detections.")	find_object::Settings	private
PARAMETER(General, autoScroll, bool, true,"Auto scroll to detected object in Objects panel.")	find_object::Settings	private
PARAMETER(General, vocabularyFixed, bool, false,"If the vocabulary is fixed, no new words will be added to it when adding new objects.")	find_object::Settings	private
PARAMETER(General, vocabularyIncremental, bool, false,"The vocabulary is created incrementally. When new objects are added, their descriptors are compared to those already in vocabulary to find if the visual word already exist or not. \"NearestNeighbor/nndrRatio\" and \"NearestNeighbor/minDistance\" are used to compare descriptors.")	find_object::Settings	private
PARAMETER(General, vocabularyUpdateMinWords, int, 2000,"When the vocabulary is incremental (see \"General/vocabularyIncremental\"), after X words added to vocabulary, the internal index is updated with new words. This parameter lets avoiding to reconstruct the whole nearest neighbor index after each time descriptors of an object are added to vocabulary. 0 means no incremental update.")	find_object::Settings	private
PARAMETER(General, sendNoObjDetectedEvents, bool, true,"When there are no objects detected, send an empty object detection event.")	find_object::Settings	private
PARAMETER(General, autoPauseOnDetection, bool, false,"Auto pause the camera when an object is detected.")	find_object::Settings	private
PARAMETER(General, autoScreenshotPath, QString,"","Path to a directory to save screenshot of the current camera view when there is a detection.")	find_object::Settings	private
PARAMETER(General, debug, bool, false,"Show debug logs on terminal.")	find_object::Settings	private
PARAMETER(Homography, homographyComputed, bool, true,"Compute homography? On ROS, this is required to publish objects detected.")	find_object::Settings	private
PARAMETER(Homography, method, QString,"1:LMEDS;RANSAC;RHO","Type of the robust estimation algorithm: least-median algorithm or RANSAC algorithm.")	find_object::Settings	private
PARAMETER(Homography, ransacReprojThr, double, 3.0,"Maximum allowed reprojection error to treat a point pair as an inlier (used in the RANSAC method only). It usually makes sense to set this parameter somewhere in the range of 1 to 10.")	find_object::Settings	private
PARAMETER(Homography, minimumInliers, int, 10,"Minimum inliers to accept the homography. Value must be >= 4.")	find_object::Settings	private
PARAMETER(Homography, ignoreWhenAllInliers, bool, false,"Ignore homography when all features are inliers (sometimes when the homography doesn't converge, it returns the best homography with all features as inliers).")	find_object::Settings	private
PARAMETER(Homography, rectBorderWidth, int, 4,"Homography rectangle border width.")	find_object::Settings	private
PARAMETER(Homography, allCornersVisible, bool, false,"All corners of the detected object must be visible in the scene.")	find_object::Settings	private
PARAMETER(Homography, minAngle, int, 0,"(Degrees) Homography minimum angle. Set 0 to disable. When the angle is very small, this is a good indication that the homography is wrong. A good value is over 60 degrees.")	find_object::Settings	private
PARAMETER(Homography, opticalFlow, bool, false,"Activate optical flow to refine matched features before computing the homography.")	find_object::Settings	private
PARAMETER(Homography, opticalFlowWinSize, int, 16,"Size of the search window at each pyramid level.")	find_object::Settings	private
PARAMETER(Homography, opticalFlowMaxLevel, int, 3,"0-based maximal pyramid level number; if set to 0, pyramids are not used (single level), if set to 1, two levels are used, and so on; if pyramids are passed to input then algorithm will use as many levels as pyramids have but no more than maxLevel.")	find_object::Settings	private
PARAMETER(Homography, opticalFlowIterations, int, 30,"Specifying the termination criteria of the iterative search algorithm (after the specified maximum number of iterations).")	find_object::Settings	private
PARAMETER(Homography, opticalFlowEps, float, 0.01f,"Specifying the termination criteria of the iterative search algorithm (when the search window moves by less than epsilon).")	find_object::Settings	private
PARAMETER_COND(Feature2D, 1Detector, QString, FINDOBJECT_NONFREE,"7:Dense;Fast;GFTT;MSER;ORB;SIFT;Star;SURF;BRISK;AGAST;KAZE;AKAZE","4:Dense;Fast;GFTT;MSER;ORB;SIFT;Star;SURF;BRISK;AGAST;KAZE;AKAZE","Keypoint detector.")	find_object::Settings	private
PARAMETER_COND(Feature2D, 2Descriptor, QString, FINDOBJECT_NONFREE,"3:Brief;ORB;SIFT;SURF;BRISK;FREAK;KAZE;AKAZE;LUCID;LATCH;DAISY","1:Brief;ORB;SIFT;SURF;BRISK;FREAK;KAZE;AKAZE;LUCID;LATCH;DAISY","Keypoint descriptor.")	find_object::Settings	private
PARAMETER_COND(NearestNeighbor, 1Strategy, QString, FINDOBJECT_NONFREE,"1:Linear;KDTree;KMeans;Composite;Autotuned;Lsh;BruteForce","6:Linear;KDTree;KMeans;Composite;Autotuned;Lsh;BruteForce","Nearest neighbor strategy.")	find_object::Settings	private
PARAMETER_COND(NearestNeighbor, 2Distance_type, QString, FINDOBJECT_NONFREE,"0:EUCLIDEAN_L2;MANHATTAN_L1;MINKOWSKI;MAX;HIST_INTERSECT;HELLINGER;CHI_SQUARE_CS;KULLBACK_LEIBLER_KL;HAMMING","1:EUCLIDEAN_L2;MANHATTAN_L1;MINKOWSKI;MAX;HIST_INTERSECT;HELLINGER;CHI_SQUARE_CS;KULLBACK_LEIBLER_KL;HAMMING","Distance type.")	find_object::Settings	private
parameters_	find_object::Settings	privatestatic
parametersType_	find_object::Settings	privatestatic
resetParameter(const QString &key)	find_object::Settings	inlinestatic
saveSettings(const QString &fileName=QString())	find_object::Settings	static
saveWindowSettings(const QByteArray &windowGeometry, const QByteArray &windowState, const QString &fileName=QString())	find_object::Settings	static
setParameter(const QString &key, const QVariant &value)	find_object::Settings	inlinestatic
Settings()	find_object::Settings	inlineprivate
workingDirectory()	find_object::Settings	static
~Settings()	find_object::Settings	inlinevirtual