Please use this identifier to cite or link to this item: https://hdl.handle.net/11681/6359
Title: Simulation for harvesting of aquatic plants
Authors: United States. Army. Corps of Engineers. Jacksonville District.
Aquatic Plant Control Research Program (U.S.)
Perrier, Eugene R.
Gibson, Anthony C.
Keywords: Aquatic plants
SHAP (Computer program)
Computer programs
Simulation methods
Computer simulation
Publisher: Environmental Laboratory (U.S.)
Engineer Research and Development Center (U.S.)
Description: Technical Report
Abstract: This report describes a computer program entitled "Simulation for Harvesting of Aquatic Plants (SHAP)," and provides instructions and guidelines in planning for mechanical harvesting of plant-infested areas. The model provides a stochastic simulation that evaluates the harvesting system. SHAP utilizes linear programming theory for network flow analysis and queuing theory and is designed for using minimal input data in a conversational manner; that is, the user interacts directly with the program and receives output immediately. The model has been verified using field data collection records. The terrain subroutine organizes irregularly shaped plant-infested areas to be harvested into a distance-flow network (grid). The harvesting subroutine directs the harvesting procedure. The harvester (Aqua-Trio Equipment Co.) mows the aquatic plants; the transporter loads the plants and takes them to the conveyor located on the shoreline. The plants are then transferred from the transporter, via the conveyor, onto a dump truck for disposal at a convenient location. When the mowing, transporting, and disposal operations are complete, the statistics of time and queuing operations for each component are computed. Operational costs are compiled for each component (default 1977 dollars), including labor, supplies, and power costs required by the harvesting system. No prior experience with computer programming is required since all commands necessary to use SHAP are presented in this report.
URI: http://hdl.handle.net/11681/6359
Appears in Collections:Technical Report

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