Abstract
This paper aims to develop a position tracking algorithm by which a rat in a radial arm maze can be accurately located in real time. An infrared (IR) night-vision camera was hung above the maze to capture IR images of the rat. The IR images were binarized and then duplicated for subsequent intersection and opening operations. Due to simple operations and a high robustness against the noise spots formed by the droppings of the rat, it took just minutes to process more than 9000 frames, and an accuracy above 99% was reached as well. The maze was intruded by an experimenter to further test the robustness, and the accuracy slightly fell to 98%. For comparison purposes, the same experiments were carried out using a pre-trained YOLO v2 model. The YOLO counterpart gave an accuracy beyond 97% in the absence and in the presence of the intruder. In other words, this work slightly outperformed the YOLO counterpart in terms of the accuracy in both cases, which indicates the robustness of this work. However, it took the YOLO counterpart an hour or so to locate a rat contained in the frames, which highlights the contribution of this work.
Highlights
This paper aims to develop a position tracking algorithm by which a rat in a radial arm maze can be accurately located in real time
Many studies have shown that traumatic brain injury (TBI) is a high risk factor for Alzheimer’s d isease[15]
A radialarm mazes (RAMs) is used in this work to explore the behavioral characteristics of rodents with TBI
Summary
This paper aims to develop a position tracking algorithm by which a rat in a radial arm maze can be accurately located in real time. This work slightly outperformed the YOLO counterpart in terms of the accuracy in both cases, which indicates the robustness of this work. It took the YOLO counterpart an hour or so to locate a rat contained in the frames, which highlights the contribution of this work. Search trajectories in mazes can serve as an indicator, they are mostly used in the studies related to water mazes[19,20], while hardly used in RAM-based studies. Few studies have been conducted on the search trajectories of animals due to a poor repeatability[21] in a water maze test, because rats escape by swimming under an extremely high level of stress. An RAM is used to investigate the food search trajectory of rats with cognitive impairment
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