Abstract
Trajectory tracking of mobile wheeled chairs using internal shaft encoder and inertia measurement unit(IMU), exhibits several complications and accumulated errors in the tracking process due to wheel slippage, offset drift and integration approximations. These errors can be realized when comparing localization results from such sensors with a camera tracking system. In long trajectory tracking, such errors can accumulate and result in significant deviations which make data from these sensors unreliable for tracking. Meanwhile the utilization of an external camera tracking system is not always a feasible solution depending on the implementation environment. This paper presents a novel sensor fusion method that combines the measurements of internal sensors to accurately predict the location of the wheeled chair in an environment. The method introduces a new analogical OR gate structured with tuned parameters using multi-layer feedforward neural network denoted as “Neuro-Analogical Gate” (NAG). The resulting system minimize any deviation error caused by the sensors, thus accurately tracking the wheeled chair location without the requirement of an external camera tracking system. The fusion methodology has been tested with a prototype Mecanum wheel-based chair, and significant improvement over tracking response, error and performance has been observed.
Highlights
The medical care community has been working on developing a smart environment for special needs and elderly patients [1] [2] and [3]
The experiment presented in section (2) is considered where Fig 16 shows the trajectory of the camera tracking system and the results from the neuro-analogical gate” (NAG) system
The NAG fusion system was tested for infinity trajectory as well as shown in Fig 17 which represents the trajectories of the forward kinematics (FK), inertia motion unit (IMU) and camera positioning systems
Summary
The medical care community has been working on developing a smart environment for special needs and elderly patients [1] [2] and [3]. The autonomous wheel chair is the main element in such an environment which requires highly navigational performance to guarantee efficient integration in any smart environment. The user always collides with the problem of local navigation. The chair must have the properties of localization, path planning and position update. These themes represent a new trend for the robotics community in the past few years [4] [5] [6]. In [7], wheeled chair is integrated with a framework to estimate the intention of the user.
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