Cost effective development of a mobile conveying melon harvesting robot

Moshe Mann; Dror Rubinstein; Itzhak Shmulevich; Boaz Zion

Cost effective development of a mobile conveying melon harvesting robot

Moshe Mann, Dror Rubinstein, Itzhak Shmulevich, Boaz Zion

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A three step procedure is presented to calculate the cost-optimal actuator capabilities of a melon harvesting mobile Cartesian robot. In the first step, the minimum-time trajectory required to traverse between any two melons that adheres to motion constraints is calculated. This is accomplished in a hierarchal manner by solving several sub-problems involving optimal control and optimization, allowing maximum melon harvesting to be formulated as the orienteering problem with time windows. In the second step, the solution to the orienteering problem - the sequence of melons for the robot to pick up that result in the maximum number harvested - is solved. A novel solution method based on dynamic programming, the moving branch and prune method, is devised. This allows optimal melons sequences to be computed without need to solve the entire problem at once, accommodating online implementation. In the third step, the costs and revenues are modeled as a function of actuator capabilities and platform velocity and then factored into a cost function. Optimization of this function results in the most cost optimal actuators of the robot. Examples demonstrate the efficacy of the algorithm.

Original language	English
Title of host publication	American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012
Publisher	American Society of Agricultural and Biological Engineers
Pages	3907-3922
Number of pages	16
ISBN (Print)	9781622762088
State	Published - 2012
Externally published	Yes
Event	American Society of Agricultural and Biological Engineers Annual International Meeting 2012 - Dallas, TX, United States Duration: 29 Jul 2012 → 1 Aug 2012

Publication series

Name	American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012
Volume	5

Conference

Conference	American Society of Agricultural and Biological Engineers Annual International Meeting 2012
Country/Territory	United States
City	Dallas, TX
Period	29/07/12 → 1/08/12

Keywords

Cost optimization
Dynamic programming
Melon harvesting robot
Mobile manipulator
Orienteering
Time optimal control
Time windows

Cite this

Mann, M., Rubinstein, D., Shmulevich, I., & Zion, B. (2012). Cost effective development of a mobile conveying melon harvesting robot. In American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012 (pp. 3907-3922). (American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012; Vol. 5). American Society of Agricultural and Biological Engineers.

Mann, Moshe ; Rubinstein, Dror ; Shmulevich, Itzhak et al. / Cost effective development of a mobile conveying melon harvesting robot. American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012. American Society of Agricultural and Biological Engineers, 2012. pp. 3907-3922 (American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012).

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abstract = "A three step procedure is presented to calculate the cost-optimal actuator capabilities of a melon harvesting mobile Cartesian robot. In the first step, the minimum-time trajectory required to traverse between any two melons that adheres to motion constraints is calculated. This is accomplished in a hierarchal manner by solving several sub-problems involving optimal control and optimization, allowing maximum melon harvesting to be formulated as the orienteering problem with time windows. In the second step, the solution to the orienteering problem - the sequence of melons for the robot to pick up that result in the maximum number harvested - is solved. A novel solution method based on dynamic programming, the moving branch and prune method, is devised. This allows optimal melons sequences to be computed without need to solve the entire problem at once, accommodating online implementation. In the third step, the costs and revenues are modeled as a function of actuator capabilities and platform velocity and then factored into a cost function. Optimization of this function results in the most cost optimal actuators of the robot. Examples demonstrate the efficacy of the algorithm.",

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Mann, M, Rubinstein, D, Shmulevich, I & Zion, B 2012, Cost effective development of a mobile conveying melon harvesting robot. in American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012. American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012, vol. 5, American Society of Agricultural and Biological Engineers, pp. 3907-3922, American Society of Agricultural and Biological Engineers Annual International Meeting 2012, Dallas, TX, United States, 29/07/12.

Cost effective development of a mobile conveying melon harvesting robot. / Mann, Moshe; Rubinstein, Dror; Shmulevich, Itzhak et al.
American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012. American Society of Agricultural and Biological Engineers, 2012. p. 3907-3922 (American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012; Vol. 5).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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Mann M, Rubinstein D, Shmulevich I, Zion B. Cost effective development of a mobile conveying melon harvesting robot. In American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012. American Society of Agricultural and Biological Engineers. 2012. p. 3907-3922. (American Society of Agricultural and Biological Engineers Annual International Meeting 2012, ASABE 2012).

Cost effective development of a mobile conveying melon harvesting robot

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