Ivan Hrabar scite author profile

A heterogeneous robotic system that can perform various tasks in the steep vineyards of the Mediterranean region was developed and tested as part of the HEKTOR—Heterogeneous Autonomous Robotic System in Viticulture and Mariculture—project. This article describes the design of hardware and an easy-to-use method for evaluating the energy consumption of the system, as well as, indirectly, its deployment readiness level. The heterogeneous robotic system itself consisted of a flying robot—a light autonomous aerial robot (LAAR)—and a ground robot—an all-terrain mobile manipulator (ATMM), composed of an all-terrain mobile robot (ATMR) platform and a seven-degree-of-freedom (DoF) torque-controlled robotic arm. A formal approach to describe the topology and parameters of selected vineyards is presented. It is shown how Google Earth data can be used to make an initial estimation of energy consumption for a selected vineyard. On this basis, estimates of energy consumption were made for the tasks of protective spraying and bud rubbing. The experiments were conducted in two different vineyards, one with a moderate slope and the other with a much steeper slope, to evaluate the proposed estimation method.

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Towards Autonomous Navigation of a Mobile Robot in a Steep Slope Vineyard

Hrabar

Goričanec

Kovačić

2021

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Automated Suckering of Vines with a Mobile Robot and a Torque-controlled Suckering Tool

Stuhne

Vatavuk

Hrabar

et al. 2022

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Electrical resonance/antiresonance characterization of NDT transducer and possible optimization of impulse excitation signals width and their types

Franček

Petošić

Budimir

et al. 2019

NDT & E International

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Ivan Hrabar

Heterogeneous autonomous robotic system in viticulture and mariculture - project overview

Estimation of the Energy Consumption of an All-Terrain Mobile Manipulator for Operations in Steep Vineyards

Towards Autonomous Navigation of a Mobile Robot in a Steep Slope Vineyard

Automated Suckering of Vines with a Mobile Robot and a Torque-controlled Suckering Tool

Electrical resonance/antiresonance characterization of NDT transducer and possible optimization of impulse excitation signals width and their types

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