Adarsh Ghimire scite author profile

Adarsh Ghimire

5Publications

6Citation Statements Received

93Citation Statements Given

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Affiliations

Khalifa University of Science and Technology

Publications

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Robot Person Following in Uniform Crowd Environment

Ghimire¹,

Zhang²,

Javed³

et al. 2022

Preprint

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Person-tracking robots have many applications, such as in security, elderly care, and socializing robots. Such a task is particularly challenging when the person is moving in a Uniform crowd. Also, despite significant progress of trackers reported in the literature, state-of-the-art trackers have hardly addressed person following in such scenarios. In this work, we focus on improving the perceptivity of a robot for a person following task by developing a robust and real-time applicable object tracker. We present a new robot person tracking system with a new RGB-D tracker, Deep Tracking with RGB-D (DTRD) that is resilient to tricky challenges introduced by the uniform crowd environment. Our tracker utilizes transformer encoder-decoder architecture with RGB and depth information to discriminate the target person from similar distractors. A substantial amount of comprehensive experiments and results demonstrate that our tracker has higher performance in two quantitative evaluation metrics and confirms its superiority over other SOTA trackers.• We propose a fully autonomous robot person following system with our new RGB-D tracker. It can track the person under the challenges like uniform crowd and occlusion with similar-appearing people.

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Real-Time Face Recognition System

Ghimire¹,

Werghi²,

Javed³

et al. 2022

Preprint

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Deep learning framework for robot for person detection and tracking

Ghimire¹,

Zhang²,

Werghi³

et al. 2022

Preprint

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Robot-Person Tracking in Uniform Appearance Scenarios: A New Dataset and Challenges

Zhang

Ghimire

Javed

et al. 2023

IEEE Trans. Human-Mach. Syst.

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A Crowd-Based Efficient Fault-Proof Localization System for IoT and MCS

2021

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In this paper, an efficient and fault-proof active node selection approach for localization tasks in Internet of Things (IoT) and Mobile Crowd Sensing (MCS) systems is proposed. The proposed approach is resilient to the presence of anomalous nodes. Localization is the process of fusing data readings from multiple sensing nodes with the aim of finding the location of a specific target, such as radiation source, forest fires and noisy areas. Current active node selection systems for localization tasks perform algorithms like greedy and genetic methods over the whole Area of Interest (AoI). As such, a system that considers anomalous data is required to detect anomalies and perform localization over a large number of active nodes, which usually takes multiple iterations and is computationally costly. To overcome this, we propose a resilient localization approach which a) uses the median filter based image filtering technique to level out anomalous readings, b) uses the filtered readings to reduce the AoI to be around the target location without being influenced by anomalous nodes, c) detects and eliminates anomalies in the new AoI based on the deviation between filtered readings and original readings, and d) selects remaining nodes in new AoI for localization. As a result, there is a huge reduction in the complexity of active node selection and thus reduction in time taken by the system to perform the task of source localization. The efficacy of the proposed system is evaluated for radiation source localization tasks using simulated radiation dataset, by performing experiments for several test scenarios. The results demonstrate that the system is able to perform localization tasks in significantly reduced time and therefore generate near real-time results while also maintaining low localization error.

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Adarsh Ghimire

Robot Person Following in Uniform Crowd Environment

Real-Time Face Recognition System

Deep learning framework for robot for person detection and tracking

Robot-Person Tracking in Uniform Appearance Scenarios: A New Dataset and Challenges

A Crowd-Based Efficient Fault-Proof Localization System for IoT and MCS

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