PATENT CLAIM ANALYSIS

Application Number: 15904424
Application Type: Utility
Filing Date: 2018-02
Publication Date: 2018-06
Patent Classification: ["382", "255000"]

Abstract:
A method of measuring the distance of two points of an object by processing the image of the object taken from the mobile phone. The image taken by the mobile phone should contain the object and a piece of a rectangular paper marked with a point on each corner. For example, the object (e.g., a human foot) stands on a piece of the rectangular paper which has a mark on each corner. The image taken by a mobile phone should contain the foot and at least three of the four marks. Likewise, a human standing against the wall aside with the marked paper and a hand pressing on the marked paper are all applicable to the method of measuring any two points in the image of the. The resulted distance of any two points can be used to obtain a correct size of foot or the like.

Claim (Index 1):
A method of measuring size of an object comprising the steps of:\n (1) using a mobile phone to take a picture of an object rested on a rectangular paper having four marks on four corners respectively to obtain an image of the object; (2) decreasing the size of the image and smoothing the image; (3) comparing the image with a predetermined value to filter out noise; (4) further comparing the image with an adaptive threshold to filter out noise; (5) using canny edge detection to make an edge of the image clearer; (6) calculating the number of contours of the mark wherein the number of the contours of the mark is six; (7) calculating the number of the marks in the image; (8) looping back to step (1) if the number of the marks is less than three; (9) labeling the three marks shown in the image as first, second, and third marks having a coordinate; (10) obtaining a fourth mark by applying extrapolation; (11) obtaining a location of the object in the three-dimensional space; (12) executing perspective transformation on the object to obtain a distance between any two points of the object in the image; (13) subjecting the image to Lab color space transformation; (14) resizing the image; (15) converting two-dimensional characteristics of the image into one-dimensional characteristic thereof; (16) running k-means clustering (k=3) to obtain cluster centers wherein color is classified as a first cluster of skin color, a second cluster of white, and a third cluster of background; (17) applying 1-nearest neighbor classifier on the cluster centers to classify new data into the clusters, and employing Asian color index (L:90, a:12, b:12) to obtain the number of the clusters; (18) binarizing the skin color of the image for converting the pixel image into a binary image wherein a distance between each pixel of the image and the nearest cluster center is defined as 255 and a distance between the same and the distal cluster center is defined as 0; (19) measuring length of the object and width thereof respectively; (20) executing perspective transformation on the object in the image; and (21) obtaining a correct size of the object.

Metadata:
- Claim Count in Document: 3.0
- Percentile: 88.0
- Lexical Diversity: 2.22535
- Patent Class: 382.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['15223015', '14279564', '12945075', '11198562', '10133558']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.2500129335901331
- 35 USC 102 Novelty (BERT): 0.5062196953009359
- Combined Prediction Score: 0.2756336097612134
- Mean Citation Score: 94.499447
- Max Citation Score: 100.17632
- Similarity Product: 51.735109865837096

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 0
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test