Towards an immersive user interface for waypoint navigation of a mobile robot

Baker, Gregory S.; Bridgwater, Tom; Bremner, Paul; Giuliani, Manuel

doi:10.48550/arxiv.2003.12772

Cited by 2 publications

(2 citation statements)

References 19 publications

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“…Waypoint navigation is one use of the ARHMDs for mobile robots in human-robot collaboration, as augmented and virtual reality can provide an immersive interface for robot control. Baker et al [21] presented a target selection interface in virtual reality using a head-mounted display to allow waypoint navigation of mobile robots. Kästner and Lambrecht [22] presented a prototype of the AR visualization of the navigation of mobile robots using the Microsoft HoloLens.…”

Section: Augmented Reality and Robot Navigationmentioning

confidence: 99%

MINA: A Robotic Assistant for Hospital Fetching Tasks

Nambiappan

Arboleda

Lundberg³

et al. 2022

Technologies

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In this paper, a robotic Multitasking Intelligent Nurse Aid (MINA) is proposed to assist nurses with everyday object fetching tasks. MINA consists of a manipulator arm on an omni-directional mobile base. Before the operation, an augmented reality interface was used to place waypoints. Waypoints can indicate the location of a patient, supply shelf, and other locations of interest. When commanded to retrieve an object, MINA uses simultaneous localization and mapping to map its environment and navigate to the supply shelf waypoint. At the shelf, MINA builds a 3D point cloud representation of the shelf and searches for barcodes to identify and localize the object it was sent to retrieve. Upon grasping the object, it returns to the user. Collision avoidance is incorporated during the mobile navigation and grasping tasks. We performed experiments to evaluate MINA’s efficacy including with obstacles along the path. The experimental results showed that MINA can repeatedly navigate to the specified waypoints and successfully perform the grasping and retrieval task.

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Section: Augmented Reality and Robot Navigationmentioning

confidence: 99%

MINA: A Robotic Assistant for Hospital Fetching Tasks

Nambiappan

Arboleda

Lundberg³

et al. 2022

Technologies

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show abstract

“…Many other VR interfaces focus on efficiently completing a specific task, such as commanding a Rethink Robotics Baxter to pick and place objects on a table in front of the robot [10] or mobile robots navigating a maze [2]. This test environment allowed us to combine navigation and manipulation planning, while also requiring the operator to have good situation awareness of the remote environment to complete all components successfully without colliding with the environment.…”

Section: System and Environmentmentioning

confidence: 99%

Semi-Autonomous Planning and Visualization in Virtual Reality

LeMasurier¹,

Allspaw²,

Yanco³

2021

Preprint

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Virtual reality (VR) interfaces for robots provide a three-dimensional (3D) view of the robot in its environment, which allows people to better plan complex robot movements in tight or cluttered spaces. In our prior work, we created a VR interface to allow for the teleoperation of a humanoid robot. As detailed in this paper, we have now focused on a human-in-the-loop planner where the operator can send higher level manipulation and navigation goals in VR through functional waypoints, visualize the results of a robot planner in the 3D virtual space, and then deny, alter or confirm the plan to send to the robot. In addition, we have adapted our interface to also work for a mobile manipulation robot in addition to the humanoid robot. For a video demonstration please see the accompanying video at https://youtu.be/wEHZug_fxrA.

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Towards an immersive user interface for waypoint navigation of a mobile robot

Cited by 2 publications

References 19 publications

MINA: A Robotic Assistant for Hospital Fetching Tasks

MINA: A Robotic Assistant for Hospital Fetching Tasks

Semi-Autonomous Planning and Visualization in Virtual Reality

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