Bethel Atohoun scite author profile

Bethel Atohoun

3Publications

1Citation Statement Received

66Citation Statements Given

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Saliency based human fall detection in smart home environments using posture recognition

Mousse

Atohoun²

2021

Health Informatics J

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The implementation of people monitoring system is an evolving research theme. This paper introduces an elderly monitoring system that recognizes human posture from overlapping cameras for people fall detection in a smart home environment. In these environments, the zone of movement is limited. Our approach used this characteristic to recognize human posture fastly by proposing a region-wise modelling approach. It classifies persons pose in four groups: standing, crouching, sitting and lying on the floor. These postures are obtained by calculating an estimation of the human bounding volume. This volume is estimated by obtaining the height of the person and its surface that is in contact with the ground according to the foreground information of each camera. Using them, we distinguish each postures and differentiate lying on floor posture, which can be considered as the falling posture from other postures. The global multiview information of the scene is obtaining by using homographic projection. We test our proposed algorithm on multiple cameras based fall detection public dataset and the results prove the efficiency of our method.

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An Intelligent based System for Blind People Monitoring in a Smart Home

Zantou¹,

Mousse²,

Atohoun³

2020

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Visually impaired people need help to travel safely. To make this possible, many travel aids have been designed. Among them, the cane which is considered as a symbol of visual deficiency in the whole world. In this work, we build an electronic white cane using sensors' technology. This intelligent cane detects obstacles within 2m on the ground or in height, and sends vocal instructions via a Bluetooth headset. We have also built a mobile application to track in real time the visually impaired and a WEB application to control the access to the mobile one. We use ultrasound, IR sensors and a raspberry pi to process data. We use Python as programming language for electronic devices. The mobile application is Android. Though, the WEB application is a REST API developed using Python and Java Script.

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The Management of a Multicamera Tracking System for Videosurveillance by Using an Agent Based Approach

Atohoun¹,

Motamed²

2011

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The development of vision systems for monitoring or surveillance of wide area sites is an interesting field of investigation. In order to maximize the capabilities and performance of such system, it is often necessary to use a variety of sensor devices that complement each other. The standard configuration consists in completely covering a scene with a set of cameras with adjacent Fields Of View (FOV). Many people from the computer vision community have worked on the geometrical aspect of this configuration. By using several overlapping calibrated cameras, the system generates a global virtual view of the scene. The use of multiple views of the same scene in the tracking process provides the ability to resolve a part of occlusion situations. A second and less explored configuration is based on a network of non-overlapping cameras. This second configuration is economically attractive because it permits to efficiently decrease the number of sensors. However, the incomplete coverage makes the tracking problem more difficult. The main difficulty is the establishment of correspondence between the objects captured by multiple sensors (cross-camera data association). In this work we present a high level sensor management strategy in a context of videosurveillance including both of the two configurations: overlapping and distant cameras. The global objective of the system is the development of the object tracking task. The general problems of multi-sensor management are related to decisions about what sensors to use and for which purposes, as well as when, where and how to use them. This last side of high level management is closely linked with the concept of active perception strategy (Bajcsy, 1998). This strategy is particularly adapted where real-time performance is needed such as tracking, robot navigation, surveillance, visual inspection. The active perception has been widely developed for designing the perception for mobile robotic. In fact real-time perception systems have theirs limitation in the computation of massive amount of input data with processing procedures in a reduced and fixed amount of time. The active strategy has the capacity to filter data and to focus the attention of the perception to relevant information and also can choose the best alternative by using the contextual information. Such approaches are closely linked with the design of cognitive system which permits to combine knowledge and reasoning in order to develop smart and robust perception system. www.intechopen.com Video Surveillance 264An important objective of an intelligent multi-sensor system is to exploit the complementarity and the redundancy of sensors. For homogenous sensors the complementarity permits to enlarge the field of perception and the redundancy permit to improve the accuracy of measurements. For a given configuration some area of the scene

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Bethel Atohoun

Saliency based human fall detection in smart home environments using posture recognition

An Intelligent based System for Blind People Monitoring in a Smart Home

The Management of a Multicamera Tracking System for Videosurveillance by Using an Agent Based Approach

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