Robust behavior and perception using hierarchical state machines: a pallet manipulation experiment

Peña, Ramón Cintas; Manso, Luis J.; Pinero, Luis R.; Burgos, Pilar Bachiller; Bustos, Pablo

doi:10.14198/jopha.2011.5.1.05

Cited by 3 publications

(2 citation statements)

References 15 publications

(11 reference statements)

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“…In the absence of the proper tools, robots tend to be programmed using hard-coded if-then-else constructs (which are considerably error-prone when the complexity increases) or, at most, fixed plans embedded in state machines (see [34,35]). Using state machines to embed plans makes code more structured, easier to understand and less-likely to contain programming errors in comparison with hard-coded logic.…”

Section: Software-related Issuesmentioning

confidence: 99%

A Perception-aware Architecture for Autonomous Robots

Manso

Bustos

Bachiller

et al. 2015

Int. j. adv. robot. syst.

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Service robots are required to operate in indoor environments to help humans in their daily lives. To achieve the tasks that they might be assigned, the robots must be able to autonomously model and interact with the elements in it. Even in homes, which are usually more predictable than outdoor scenarios, robot perception is an extremely challenging task. Clutter, distance and partial views complicate modelling the environment, making it essential for robots to approach the objects to perceive in order to gain favourable points of view. This article proposes a novel grammar-based distributed architecture, designed with reusability and scalability in mind, which enables robots not only to find and execute the perception-aware plans they need to achieve their goals, but also to verify that the world representation they build is valid according to a set of grammatical rules for the world model. Additionally, it describes a real-world example of use, providing qualitative results, in which a robot successfully models the room in which it is located and finds a coffee mug.

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Section: Software-related Issuesmentioning

confidence: 99%

A Perception-aware Architecture for Autonomous Robots

Manso

Bustos

Bachiller

et al. 2015

Int. j. adv. robot. syst.

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“…In [19,20], the pose of single pallets was estimated based on geometry features extracted from distance data provided by LiDAR with geometry classifiers. In addition, the authors of [21][22][23][24][25][26] obtained pallet pose information based on pallet size and edge features extracted from a color image provided by a camera. To reduce the effect of the environment, pallets were identified with marks attached to the pallet feet in [27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Recognition and Location Algorithm for Pallets in Warehouses Using RGB-D Sensor

Zhao

Wei

et al. 2022

Applied Sciences

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(1) Background: Forklifts are used widely in factories, but it shows the problem of large uncertainties when using an RGB-D sensor to recognize and locate pallets in warehouse environments. To enhance the flexibility of current autonomous forklifts in unstructured environments, the improved labeled template matching algorithm was proposed to recognize pallets. (2) Methods: The algorithm comprises four steps: (i) classifying each pixel of a color image with the color feature and obtaining the category matrix; (ii) building a labeled template containing the goods, pallet, and ground category information; (iii) compressing and matching the category matrix and template to determine the region of the pallet; and (iv) extracting the pallet pose from information in respect of the pallet feet. (3) Results: The results show that the proposed algorithm is robust against environmental influences and obstacles and that it can precisely recognize and segment multiple pallets in a warehouse with a 92.6% detection rate. The time consumptions were 72.44, 85.45, 117.63, and 182.84 ms for detection distances of 1000, 2000, 3000, and 4000 mm, respectively. (4) Conclusions: Both static and dynamic experiments were conducted, and the results demonstrate that the detection accuracy is directly related to the detection angle and distance.

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