Determination of Normal or Abnormal Gait Using a Two-Dimensional Video Camera

Smith, Benjamin Andrew

19 June 2007

The extraction and analysis of human gait characteristics using image sequences and the subsequent classification of these characteristics are currently an intense area of research. Recently, the focus of this research area has turned to the realm of computer vision as an unobtrusive way of performing this analysis. With such systems becoming more common, a gait analysis system that will quickly and accurately determine if a subject is walking normally becomes more valuable. Such a system could be used as a preprocessing step in a more sophisticated gait analysis system or could be used for rehabilitation purposes. In this thesis a system is proposed which utilizes a novel fusion of spatial computer vision operations as well as motion in order to accurately and efficiently determine if a subject moving through a scene is walking normally or abnormally. Specifically this system will yield a classification of the type of motion being observed, whether it is a human walking normally or some other kind of motion taking place within the frame. Experimental results will show that the system provides accurate detection of normal walking and can distinguish abnormalities as subtle as limping or walking with a straight leg reliably. / Master of Science

Gait

Abnormality Detection

Pattern Recognition

Computer Vision

Abnormality Detection in Retinal Images

Yu, Xiaoxue, Hsu, Wynne, Lee, Wee Sun, Lozano-Pérez, Tomás

01 1900

The implementation of data mining techniques in the medical area has generated great interest because of its potential for more efficient, economic and robust performance when compared to physicians. In this paper, we focus on the implementation of Multiple-Instance Learning (MIL) in the area of medical image mining, particularly to hard exudates detection in retinal images from diabetic patients. Our proposed approach deals with the highly noisy images that are common in the medical area, improving the detection specificity while keeping the sensitivity as high as possible. We have also investigated the effect of feature selection on system performance. We describe how we implement the idea of MIL on the problem of retinal image mining, discuss the issues that are characteristic of retinal images as well as issues common to other medical image mining problems, and report the results of initial experiments. / Singapore-MIT Alliance (SMA)

data mining

abnormality detection

multiple-instance learning

medical image mining

Radiographer abnormality detection schemes in the trauma environment: An assessment of current practice

Snaith, Beverly, Hardy, Maryann L.

05 November 2007

No / Radiographer abnormality detection schemes (RADS) were first introduced in the United Kingdom (UK) in the mid 1980s with the development of the ‘red dot scheme’. This article establishes the current position of UK RADS practice and provides insight into specific areas for development. Method: A postal questionnaire was distributed to 456 sites, including 270 emergency departments and 186 minor injuries units (MIU). Information was sought relating to: the type of emergency department and radiography service provided; details of RADS operated including any education and audit to support radiographer participation; and the mandatory/voluntary nature of the system adopted. Results: A total of 306 (n = 306/456; 74%) responses were received. The large majority of respondents (n = 284/306; 92.8%) indicated that a RADS was in operation. Of these, 221 sites operated a red dot scheme, 7 sites operated a radiographer comment system, and a further 54 sites operated both a red dot and comment scheme. Two sites indicated that a RADS other than red dot or radiographer commenting was operated. Twenty-one different methods of highlighting abnormal images were identified and eight different commenting methods. The RADS was considered mandatory at 25% of sites. Conclusion: This study confirms the continued widespread contribution of radiographers to the trauma diagnostic process through the use of RADS. The informal nature of the systems, inconsistent approaches to audit and education, and variations in the methods employed are issues which require national guidance.

Red dot

Radiographer abnormality detection

RADS

Radiographer comment

Role extension

Automated Crowd Behavior Analysis For Video Surveillance Applications

Guler, Puren

01 September 2012

Automated analysis of a crowd behavior using surveillance videos is an important issue for public security, as it allows detection of dangerous crowds and where they are headed. Computer vision based crowd analysis algorithms can be divided into three groups / people counting, people tracking and crowd behavior analysis. In this thesis, the behavior understanding will be used for crowd behavior analysis. In the literature, there are two types of approaches for behavior understanding problem: analyzing behaviors of individuals in a crowd (object based) and using this knowledge to make deductions regarding the crowd behavior and analyzing the crowd as a whole (holistic based). In this work, a holistic approach is used to develop a real-time abnormality detection in crowds using scale invariant feature transform (SIFT) based features and unsupervised machine learning techniques.

QA Computer Software 76.75-76.765

Approaches to Abnormality Detection with Constraints

Otey, Matthew Eric

12 September 2006

No description available.

Computer Science

abnormality detection

anomaly detection

signature detection

outlier detection

data mining

Reducing image interpretation errors - Do communication strategies undermine this?

Snaith, Beverly, Hardy, Maryann L., Lewis, Emily F.

08 1900

No / Errors in the interpretation of diagnostic images in the emergency department are a persistent problem internationally. To address this issue, a number of risk reduction strategies have been suggested but only radiographer abnormality detection schemes (RADS) have been widely implemented in the UK. This study considers the variation in RADS operation and communication in light of technological advances and changes in service operation. A postal survey of all NHS hospitals operating either an Emergency Department or Minor Injury Unit and a diagnostic imaging (radiology) department (n = 510) was undertaken between July and August 2011. The questionnaire was designed to elicit information on emergency service provision and details of RADS. 325 questionnaires were returned (n = 325/510; 63.7%). The majority of sites (n = 288/325; 88.6%) operated a RADS with the majority (n = 227/288; 78.8%) employing a visual ‘flagging’ system as the only method of communication although symbols used were inconsistent and contradictory across sites. 61 sites communicated radiographer findings through a written proforma (paper or electronic) but this was run in conjunction with a flagging system at 50 sites. The majority of sites did not have guidance on the scope or operation of the ‘flagging’ or written communication system in use. RADS is an established clinical intervention to reduce errors in diagnostic image interpretation within the emergency setting. The lack of standardisation in communication processes and practices alongside the rapid adoption of technology has increased the potential for error and miscommunication.

X-ray

Radiographer

Interpretation

Error

Red dot

Emergency department

RADS

Discretized Categorization Of High Level Traffic Activites In Tunnels Using Attribute Grammars

Buyukozcu, Demirhan

01 October 2012

This work focuses on a cognitive science inspired solution to an event detection problem in a video domain. The thesis raises the question whether video sequences that are taken in highway tunnels can be used to create meaningful data in terms of symbolic representation, and whether these symbolic representations can be used as sequences to be parsed by attribute grammars into abnormal and normal events. The main motivation of the research was to develop a novel algorithm that parses sequences of primitive events created by the image processing algorithms. The domain of the research is video detection and the special application purpose is for highway tunnels, which are critical places for abnormality detection. The method used is attribute grammars to parse the sequences. The symbolic sequences are created from a cascade of image processing algorithms such as / background subtracting, shadow reduction and object tracking. The system parses the sequences and creates alarms if a car stops, moves backwards, changes lanes, or if a person walks into the road or is in the vicinity when a car is moving along the road. These critical situations are detected using Earley&rsquo / s parser, and the system achieves real-time performance while processing the video input. This approach substantially lowers the number of false alarms created by the lower level image processing algorithms by preserving the number of detected events at a maximum. The system also achieves a high compression rate from primitive events while keeping the lost information at minimum. The output of the algorithm is measured against SVM and observed to be performing better in terms of detection and false alarm performance.

QA Calculating Machines 75-76.95

Event Detection, Earley&rsquo

Machine Learning for Automation of Chromosome based Genetic Diagnostics / Maskininlärning för automatisering av kromosombaserad genetisk diagnostik

Chu, Gongchang

January 2020

Chromosome based genetic diagnostics, the detection of specific chromosomes, plays an increasingly important role in medicine as the molecular basis of hu- man disease is defined. The current diagnostic process is performed mainly by karyotyping specialists. They first put chromosomes in pairs and generate an image listing all the chromosome pairs in order. This process is called kary- otyping, and the generated image is called karyogram. Then they analyze the images based on the shapes, size, and relationships of different image segments and then make diagnostic decisions. Manual inspection is time-consuming, labor-intensive, and error-prone.This thesis investigates supervised methods for genetic diagnostics on karyo- grams. Mainly, the theory targets abnormality detection and gives the confi- dence of the result in the chromosome domain. This thesis aims to divide chromosome pictures into normal and abnormal categories and give the con- fidence level. The main contributions of this thesis are (1) an empirical study of chromosome and karyotyping; (2) appropriate data preprocessing; (3) neu- ral networks building by using transfer learning; (4) experiments on different systems and conditions and comparison of them; (5) a right choice for our requirement and a way to improve the model; (6) a method to calculate the confidence level of the result by uncertainty estimation.Empirical research shows that the karyogram is ordered as a whole, so preprocessing such as rotation and folding is not appropriate. It is more rea- sonable to choose noise or blur. In the experiment, two neural networks based on VGG16 and InceptionV3 were established using transfer learning and com- pared their effects under different conditions. We hope to minimize the error of assuming normal cases because we cannot accept that abnormal chromo- somes are predicted as normal cases. This thesis describes how to use Monte Carlo Dropout to do uncertainty estimation like a non-Bayesian model[1]. / Kromosombaserad genetisk diagnostik, detektering av specifika kromosomer, kommer att spela en allt viktigare roll inom medicin eftersom den molekylära grunden för mänsklig sjukdom definieras. Den nuvarande diagnostiska pro- cessen utförs huvudsakligen av specialister på karyotypning. De sätter först kromosomer i par och genererar en bild som listar alla kromosompar i ord- ning. Denna process kallas karyotypning, och den genererade bilden kallas karyogram. Därefter analyserar de bilderna baserat på former, storlek och för- hållanden för olika bildsegment och fattar sedan diagnostiska beslut.Denna avhandling undersöker övervakade metoder för genetisk diagnostik på karyogram. Huvudsakligen riktar teorin sig mot onormal detektion och ger förtroendet för resultatet i kromosomdomänen. Manuell inspektion är tidskrä- vande, arbetskrävande och felbenägen. Denna uppsats syftar till att dela in kro- mosombilder i normala och onormala kategorier och ge konfidensnivån. Dess huvudsakliga bidrag är (1) en empirisk studie av kromosom och karyotyp- ning; (2) lämplig förbehandling av data; (3) Neurala nätverk byggs med hjälp av transfer learning; (4) experiment på olika system och förhållanden och jäm- förelse av dem; (5) ett rätt val för vårt krav och ett sätt att förbättra modellen;    en metod för att beräkna resultatets konfidensnivå genom osäkerhetsupp- skattning.    Empirisk forskning visar att karyogrammet är ordnat som en helhet, så förbehandling som rotation och vikning är inte lämpligt. Det är rimligare att välja brus, oskärpa etc. I experimentet upprättades två neurala nätverk base- rade på VGG16 och InceptionV3 med hjälp av transfer learning och jämförde deras effekter under olika förhållanden. När vi väljer utvärderingsindikatorer, eftersom vi inte kan acceptera att onormala kromosomer bedöms förväntas, hoppas vi att minimera felet att anta som vanligt. Denna avhandling beskriver hur man använder Monte Carlo Dropout för att göra osäkerhetsberäkningar som en icke-Bayesisk modell [1].

Genetic Diagnostics

Abnormality Detection

Transfer Learning

Deep Learning

Uncertainty Estimation

Genetisk diagnos

onormal detektion

överföringsinlärning

djupinlärning

osäkerhetsuppskattning

Computer and Information Sciences

Data- och informationsvetenskap