PERANCANGAN LINTASAN PERAKITAN PRODUK EXCAVA 200 STANDAR DAN LONG ARM PADA DIVISI ALAT BERAT PT PINDAD (PERSERO) MENGGUNAKAN ALGORITMA SIMULATED ANNEALING
PT Pindad (Persero) is a state-owned defense equipment manufacturer. One of the main products of PT Pindad (Persero) is Excava 200 Standar and Long Arm. The company set production targets of 100 units for Excava 200 Standard and 50 units for Excava 200 Long Arm, but these targets have not been ac...
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| 格式: | Final Project |
| 語言: | Indonesia |
| 在線閱讀: | https://digilib.itb.ac.id/gdl/view/77736 |
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| 總結: | PT Pindad (Persero) is a state-owned defense equipment manufacturer. One of the main
products of PT Pindad (Persero) is Excava 200 Standar and Long Arm. The company set
production targets of 100 units for Excava 200 Standard and 50 units for Excava 200 Long
Arm, but these targets have not been achieved due to poor operator assignment and task
assignment methods. The desired cycle time is 600 minutes, while the current cycle time is
909,6 minutes. Therefore, assembly line balancing and operator assignment is required to
minimize the cycle time in order to achieve production targets.
The research was started by modifying the mathematical model to fit the actual assembly
conditions. The results of the modification are the addition of 8 constraints to ensure one
station can be assigned more than 1 operator, the same operation for both types of products
is assigned to the same operator, and the upper assembly and lower assembly groups are
assigned to different stations. Assembly line problems are an NP-hard resulting in very large
computational time with analytical method. The cycle time obtained by the analytical method
was 717.65 minutes for 168 hours of computing. A simulated annealing algorithm was
developed for assembly line balancing with mixed products. The algorithm consists of two
procedures: the outer loop and the inner loop. The outer loop executes the general simulated
annealing procedure, while the inner loop generates initial solution and neighborhood
solutions for the assembly line problem. The developed inner loop procedures include initial
solution construction, task swapping, task inserting, and operator assignment.
Simulated annealing algorithm produced viable solutions for the Excava 200 Standard and
Long Arm assembly line problem with a cycle time of 128,14 minutes with 29 operators
assigned to 12 workstations. PT Pindad will able to produce 500 units of Excava 200
Standar and 200 units of Excava Long Arm using this line and cycle time. Algorithm
parameters were determined using factorial design method based on objective values and
computation time. Experimental results indicated that the significant parameters for
minimizing cycle time are the temperature reduction, iteration per temperature, and
assignment repetition.
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