Navegación Autónoma Asistida Basada en SLAM para una Silla de Ruedas Robotizada en Entornos Restringidos

Cheein, Fernando Auat; Cruz, Celso De La; Carelli, Ricardo; Filho, Teodiano Freire Bastos

doi:10.1016/s1697-7912(11)70029-2

Cited by 7 publications

(13 citation statements)

References 18 publications

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“…map) of the surrounding environment, in order to localize the vehicle therein (such as in [22]) and to maintain a geographical tracking of tasks and information related to the agricultural activity [23].…”

Section: A Service Unitsmentioning

confidence: 99%

Human-robot interaction in precision agriculture: Sharing the workspace with service units

Cheein

Herrera

Giménez

et al. 2015

2015 IEEE International Conference on Industrial Technology (ICIT)

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Currently, Chile and Argentina experience serious challenges that affect their agricultural productivity. For example, in Chile, the loss of farmable field due to recent earthquakes, and volcanic eruptions as well as the loss of water reserves due to climate changes are affecting the agriculture. Additionally, both countries are facing a same problem: the loss of human labor force. Field workers are migrating from the farm to other fields in the industry which offer them more stable and more profitable jobs (like the mining industry in Chile, or car assembling lines in Argentina). In this adverse scenario, it becomes necessary to introduce and develop agricultural automation and sensing technologies for both primary (harvesting, seeding, fertilizing, spraying) and secondary tasks (grove supervision, weed detection, hauling, mowing). However, fully robotized farms are not yet a possibility since the transition from human labor force dependent farming to autonomous farming needs to be smooth and requires legal regulation not yet in discussion. In this paper, we summarize the state of the art in human-robot interaction in farmable fields, with emphasis in the current constrains associated with flexible automatization of farms in Argentina and Chile. In particular, we introduce the guidelines for designing a humanrobot interaction strategy for harvesting tasks, that could be used for other agricultural tasks.

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Section: A Service Unitsmentioning

confidence: 99%

Human-robot interaction in precision agriculture: Sharing the workspace with service units

Cheein

Herrera

Giménez

et al. 2015

2015 IEEE International Conference on Industrial Technology (ICIT)

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“…The range laser is used for mapping and autonomous navigation, as mentioned in Section III-G. As can be seen, the laser sensor does not increase the mobility restrictions of the wheelchair. Additionally, a path planning algorithm presented in Section III-G2 guarantees that the wheelchair will reach the desired destination and orientation within the environment [13]. Further information regarding the wheelchair sensing and programming can be found in [13], [14].…”

Section: Robotic Wheelchairmentioning

confidence: 99%

“…Additionally, a path planning algorithm presented in Section III-G2 guarantees that the wheelchair will reach the desired destination and orientation within the environment [13]. Further information regarding the wheelchair sensing and programming can be found in [13], [14].…”

Section: Robotic Wheelchairmentioning

confidence: 99%

Towards a New Modality-Independent Interface for a Robotic Wheelchair

Bastos

Cheein

Müller

et al. 2014

IEEE Trans. Neural Syst. Rehabil. Eng.

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This work presents the development of a robotic wheelchair that can be commanded by users in a supervised way or by a fully automatic unsupervised navigation system. It provides flexibility to choose different modalities to command the wheelchair, in addition to be suitable for people with different levels of disabilities. Users can command the wheelchair based on their eye blinks, eye movements, head movements, by sip-and-puff and through brain signals. The wheelchair can also operate like an auto-guided vehicle, following metallic tapes, or in an autonomous way. The system is provided with an easy to use and flexible graphical user interface onboard a personal digital assistant, which is used to allow users to choose commands to be sent to the robotic wheelchair. Several experiments were carried out with people with disabilities, and the results validate the developed system as an assistive tool for people with distinct levels of disability.

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“…Equations (13) and (14) represent the desired velocities so that the mobile robot tends to the desired trajectory at time n:…”

Section: Analysis Of Parametersmentioning

confidence: 99%

“…Details of the trajectory planning strategy used in this work can be found in a previous work of the authors of ref. [14]. r The trajectory planning strategy generates a reference trajectory that is compared to the current estimated pose of the mobile robot.…”

Section: Reaching a Moving Target: A Case Studymentioning

confidence: 99%

Trajectory-tracking controller design with constraints in the control signals: a case study in mobile robots

Serrano¹,

Scaglia²,

Cheein³

et al. 2014

Robotica

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SUMMARYThis paper is a continuation of a previous work of authors, Scaglia et al. [G. J. E. Scaglia, L. M. Quintero, V. Mut and F. Di Sciascio, “Numerical methods based controller design for mobile robots,” Robotica27(2), 269–279 (2009)]. A method is presented to choose the controller parameters such that, the values of the control actions do not exceed the maximum allowable and the tracking errors tend to zero. In addition, the analysis of the controller design parameters is included. The experimental results (laboratory experiments and a real world application) demonstrate the efficiency of the controller.

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Navegación Autónoma Asistida Basada en SLAM para una Silla de Ruedas Robotizada en Entornos Restringidos

Cited by 7 publications

References 18 publications

Human-robot interaction in precision agriculture: Sharing the workspace with service units

Human-robot interaction in precision agriculture: Sharing the workspace with service units

Towards a New Modality-Independent Interface for a Robotic Wheelchair

Trajectory-tracking controller design with constraints in the control signals: a case study in mobile robots

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