A probabilistic methodology for predicting injuries to human operators in automated production lines

Abstract: Mobile robots are increasingly utilised in automated plants to the purpose of moving wares and material between the different production lines and logistic areas. In this context, the presence of human operators in the facility is frequently allowed to carry out or supervise some phases of the production. The problem arises of how to make the coexistence possible with controlled risks for the operator and without affecting the productivity with frequent interruptions. In this paper we propose a solution to thi… Show more

“…The initial condition is x(0) = [0, 0, 1, 1, 1, 1] T . This dynamic is a well established model for manoeuvring targets [24][25][26], which is also used to model human motion [27,28]. The model implemented in the Kalman filter is the previous double integrator.…”

A Distributed Strategy for Target Tracking and Rendezvous Using UAVs Relying on Visual Information Only

“…The initial condition is x(0) = [0, 0, 1, 1, 1, 1] T . This dynamic is a well established model for manoeuvring targets [24][25][26], which is also used to model human motion [27,28]. The model implemented in the Kalman filter is the previous double integrator.…”

A Distributed Strategy for Target Tracking and Rendezvous Using UAVs Relying on Visual Information Only

“…6. The decision for the mobile robot is to stop or move, based on the probabilistic methodology [3]. If the target is in a bad state, then the mobile robot is stopped, otherwise, it continues to move.…”

Design and Implementation of a Vision-Based System for Mobile Robot/Human Localization

“…The human and robot relative positions are estimated in the mobile robot frame by visual information. The probability of an accident is calculated by deriving a set of positions and relative velocities [4]. In such a system, extracting feature from images and image matching are important for the final results.…”

A New Method of Image Matching in a Vision-Based Mobile Robot System