Avital Bechar
Avital Bechar
Senior research scientist, Agricultural Resrach Organization
Verified email at
Cited by
Cited by
Agricultural robots for field operations: Concepts and components
A Bechar, C Vigneault
Biosystems Engineering 149, 94-111, 2016
Agricultural robots for field operations. Part 2: Operations and systems
A Bechar, C Vigneault
Biosystems engineering 153, 110-128, 2017
The role of electrostatic forces in pollination
Y Vaknin, S Gan-Mor, A Bechar, B Ronen, D Eisikowitch
Pollen and pollination, 133-142, 2000
Robotic disease detection in greenhouses: combined detection of powdery mildew and tomato spotted wilt virus
N Schor, A Bechar, T Ignat, A Dombrovsky, Y Elad, S Berman
IEEE Robotics and Automation Letters 1 (1), 354-360, 2016
Early detection of tomato spotted wilt virus by hyperspectral imaging and outlier removal auxiliary classifier generative adversarial nets (OR-AC-GAN)
D Wang, R Vinson, M Holmes, G Seibel, A Bechar, S Nof, Y Tao
Scientific reports 9 (1), 4377, 2019
Human-robot collaboration for improved target recognition of agricultural robots
A Bechar, Y Edan
Industrial Robot: An International Journal 30 (5), 432-436, 2003
Safety and ergonomics in human-robot interactive agricultural operations
L Benos, A Bechar, D Bochtis
Biosystems Engineering 200, 55-72, 2020
Determination of mealiness in apples using ultrasonic measurements
A Bechar, A Mizrach, P Barreiro, S Landahl
Biosystems engineering 91 (3), 329-334, 2005
A methodology of orchard architecture design for an optimal harvesting robot
V Bloch, A Degani, A Bechar
Biosystems Engineering 166, 126-137, 2018
Cognition-mediated coevolution–context-dependent evaluations and sensitivity of pollinators to variability in nectar rewards
S Shafir, A Bechar, EU Weber
Plant Systematics and Evolution 238, 195-209, 2003
Task characterization and classification for robotic manipulator optimal design in precision agriculture
V Bloch, A Degani, A Bechar
Precision agriculture'15, 247-257, 2015
Improvement of work methods in tomato greenhouses using simulation
A Bechar, S Yosef, S Netanyahu, Y Edan
Transactions of the ASABE 50 (2), 331-338, 2007
Relevance of electrostatic forces in natural and artificial pollination
S Gan-Mor, Y Schwartz, A Bechar, D Eisikowitch, G Manor
Canadian Agricultural Engineering 37 (3), 189-194, 1995
An objective function to evaluate performance of human–robot collaboration in target recognition tasks
A Bechar, J Meyer, Y Edan
IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and …, 2009
Development of a robotic detection system for greenhouse pepper plant diseases
N Schor, S Berman, A Dombrovsky, Y Elad, T Ignat, A Bechar
Precision agriculture 18, 394-409, 2017
Robotics in horticultural field production
A Bechar
Stewart Postharvest Review 6 (3), 1-11, 2010
Are flowers morphologically adapted to take advantage of electrostatic forces in pollination?
Y Vaknin, S Gan‐mor, A Bechar, B Ronen, D Eisikowitch
New Phytologist 152 (2), 301-306, 2001
Automated simulation-based workplace design that considers ergonomics and productivity
Y Harari, A Bechar, U Raschke, R Riemer
International Journal of Simulation Modelling 16 (1), 5-18, 2017
Electrostatic pollen applicator development and tests for almond, kiwi, date, and pistachio-an overview
S Gan–Mor, A Bechar, B Ronen, D Eisikowitch, Y Vaknin
Applied Engineering in Agriculture 19 (2), 119, 2003
Factors determining workers' pace while conducting continuous sequential lifting, carrying, and lowering tasks
Y Harari, R Riemer, A Bechar
Applied ergonomics 67, 61-70, 2018
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