TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH
The development of the e-commerce business affects the demand and volume of products distributed by the warehouse system and causes piles of task queues. The presence of an autonomous multi-forklift system is expected to be a solution. However, the multi-autonomous forklift system has navigation...
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id-itb.:732442023-06-19T07:48:33ZTASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH Kurnianto, Hardi Indonesia Theses Multi Autonomous Forklift, Navigation, Hungarian Algorithm, Conflict- based Search, Improved A-star. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/73244 The development of the e-commerce business affects the demand and volume of products distributed by the warehouse system and causes piles of task queues. The presence of an autonomous multi-forklift system is expected to be a solution. However, the multi-autonomous forklift system has navigation problems that require it to deliver products without conflict between autonomous forklifts. In addition, it must be able to fulfill performance functions such as makespan which is the maximum number of steps that must be taken and the minimum total path cost. This study proposes a modified A-star algorithm pathfinding method (Improved A-star) with the addition of a heading angle variable in the heuristic function to reduce the number of inflection points in the path analysis process. The task allocation process with the Hungarian algorithm which has been modified in the data preprocessing process for assignments and solutions from variations in the number of tasks and the number of available forklifts. The Conflict Priority-based Search (CPBS) algorithm is a modification of the Conflict-based Search (CBS) algorithm with the addition of priority rules for resolving conflicts and stopping solutions for forklifts with low priority. Based on the simulation results that have been carried out, the average difference in inflection point produced by the Improved A-star algorithm is 41.2% better than the original A-star algorithm. Then the use of the modified Hungarian algorithm can allocate tasks to a variety of quantities well. When compared with Market-based Auction. The results for the same number of tasks and the number of forklifts are better with an average of 3.7% in total line costs and 7.26% in makespan. In the condition that the number of forklifts is more, the average is better, 6.1% in total line costs and 3.95% in makespan. If the number of tasks is higher, the average is 4.87% better in line costs and 6.8% in makespan. Then the search and conflict resolution using the CPBS algorithm has a better success rate on the number of forklifts of more than 6 forklifts with a shorter total path cost of 60.41% even though it has a 64.83% larger makespan.. text |
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Indonesia Indonesia |
| content_provider |
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| language |
Indonesia |
| description |
The development of the e-commerce business affects the demand and volume of
products distributed by the warehouse system and causes piles of task queues. The
presence of an autonomous multi-forklift system is expected to be a solution.
However, the multi-autonomous forklift system has navigation problems that
require it to deliver products without conflict between autonomous forklifts. In
addition, it must be able to fulfill performance functions such as makespan which
is the maximum number of steps that must be taken and the minimum total path
cost. This study proposes a modified A-star algorithm pathfinding method
(Improved A-star) with the addition of a heading angle variable in the heuristic
function to reduce the number of inflection points in the path analysis process. The
task allocation process with the Hungarian algorithm which has been modified in
the data preprocessing process for assignments and solutions from variations in the
number of tasks and the number of available forklifts. The Conflict Priority-based
Search (CPBS) algorithm is a modification of the Conflict-based Search (CBS)
algorithm with the addition of priority rules for resolving conflicts and stopping
solutions for forklifts with low priority. Based on the simulation results that have
been carried out, the average difference in inflection point produced by the
Improved A-star algorithm is 41.2% better than the original A-star algorithm. Then
the use of the modified Hungarian algorithm can allocate tasks to a variety of
quantities well. When compared with Market-based Auction. The results for the
same number of tasks and the number of forklifts are better with an average of 3.7%
in total line costs and 7.26% in makespan. In the condition that the number of
forklifts is more, the average is better, 6.1% in total line costs and 3.95% in
makespan. If the number of tasks is higher, the average is 4.87% better in line costs
and 6.8% in makespan. Then the search and conflict resolution using the CPBS
algorithm has a better success rate on the number of forklifts of more than 6 forklifts
with a shorter total path cost of 60.41% even though it has a 64.83% larger
makespan.. |
| format |
Theses |
| author |
Kurnianto, Hardi |
| spellingShingle |
Kurnianto, Hardi TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| author_facet |
Kurnianto, Hardi |
| author_sort |
Kurnianto, Hardi |
| title |
TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| title_short |
TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| title_full |
TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| title_fullStr |
TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| title_full_unstemmed |
TASK ALLOCATION AND PATH PLANNING FOR MULTI AUTONOMOUS FORKLIFT NAVIGATION WITH COMBINATION OF HUNGARIAN METHOD AND CONFLICT PRIORITY-BASED SEARCH |
| title_sort |
task allocation and path planning for multi autonomous forklift navigation with combination of hungarian method and conflict priority-based search |
| url |
https://digilib.itb.ac.id/gdl/view/73244 |
| _version_ |
1822007054954397696 |