PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)

PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)

Nowadays, train signaling system technology in Indonesia is experiencing rapid development with the construction of rail-based public transport infrastructure for urban areas, known as urban transit. This signaling system technology is known as Communication-Based Train Control (CBTC). There is thr...

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Main Author: Elbert Suryana, Lucas
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/36478
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:36478
spelling id-itb.:364782019-03-12T16:17:43ZPID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM) Elbert Suryana, Lucas Indonesia Theses dynamic optimization, Interior Point Method (IPM), Automatic Train Operation (ATO), PID Robust H? Integral-Backstepping Control. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/36478 Nowadays, train signaling system technology in Indonesia is experiencing rapid development with the construction of rail-based public transport infrastructure for urban areas, known as urban transit. This signaling system technology is known as Communication-Based Train Control (CBTC). There is three urban transit construction in Indonesia. They are Light Rail Transit (LRT) which connects Jakarta-Bogor-Depok-Bekasi, Mass Rapid Transit (MRT) in the middle of Jakarta, and Automated People Movers (APM) which connects terminals 1,2 and 3 at Soekarno-Hatta International Airport, Tangerang. By implementing CBTC signaling technology, the train can be operated automatically without a driver. This was made possible by the Automatic Train Operation (ATO) system in CBTC. This automatic mode operation can be done by providing a speed profile to ATO which serves as a reference value that must be followed by the train. The APM Soekarno-Hatta International Airport is planned to be operated automatically. Speed profiles are formulated for every trip between stations by considering the travel time and speed of the train. Problems in determining the optimal speed profile will be solved using one of the methods in dynamic optimization, namely Interior Point Method (IPM). Where the speed limit, acceleration limit, and distance that must be taken become the limitation of the system. The optimal speed profile design is designed using minimal time objective functions. After a speed profile is formed, it will then be used as a reference from the control system. The control system is designed using the Proportional-Integral-Derivative (PID) Robust H? Integral-Backstepping Control. PID Robust Hinf Integral-Backstepping control will be represented in the state feedback augmented to the state of the state space of the train system. Robust controllers are chosen because, in operation, there is uncertainty in the form of problems within the train system, especially at peak hours. The simulation results show the value of the Root Mean Square Error (RMSE) and the difference in the final position of the train with references in a row are 1,14 x 10^-7 dan 2,86 x 10^-4 m. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Nowadays, train signaling system technology in Indonesia is experiencing rapid development with the construction of rail-based public transport infrastructure for urban areas, known as urban transit. This signaling system technology is known as Communication-Based Train Control (CBTC). There is three urban transit construction in Indonesia. They are Light Rail Transit (LRT) which connects Jakarta-Bogor-Depok-Bekasi, Mass Rapid Transit (MRT) in the middle of Jakarta, and Automated People Movers (APM) which connects terminals 1,2 and 3 at Soekarno-Hatta International Airport, Tangerang. By implementing CBTC signaling technology, the train can be operated automatically without a driver. This was made possible by the Automatic Train Operation (ATO) system in CBTC. This automatic mode operation can be done by providing a speed profile to ATO which serves as a reference value that must be followed by the train. The APM Soekarno-Hatta International Airport is planned to be operated automatically. Speed profiles are formulated for every trip between stations by considering the travel time and speed of the train. Problems in determining the optimal speed profile will be solved using one of the methods in dynamic optimization, namely Interior Point Method (IPM). Where the speed limit, acceleration limit, and distance that must be taken become the limitation of the system. The optimal speed profile design is designed using minimal time objective functions. After a speed profile is formed, it will then be used as a reference from the control system. The control system is designed using the Proportional-Integral-Derivative (PID) Robust H? Integral-Backstepping Control. PID Robust Hinf Integral-Backstepping control will be represented in the state feedback augmented to the state of the state space of the train system. Robust controllers are chosen because, in operation, there is uncertainty in the form of problems within the train system, especially at peak hours. The simulation results show the value of the Root Mean Square Error (RMSE) and the difference in the final position of the train with references in a row are 1,14 x 10^-7 dan 2,86 x 10^-4 m.
format Theses
author Elbert Suryana, Lucas
spellingShingle Elbert Suryana, Lucas
PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
author_facet Elbert Suryana, Lucas
author_sort Elbert Suryana, Lucas
title PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
title_short PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
title_full PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
title_fullStr PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
title_full_unstemmed PID ROBUST Hinf INTEGRAL-BACKSTEPPING CONTROL WITH OPTIMAL CONTROL STRATEGY FOR AUTOMATED PEOPLE MOVERS (APM)
title_sort pid robust hinf integral-backstepping control with optimal control strategy for automated people movers (apm)
url https://digilib.itb.ac.id/gdl/view/36478
_version_ 1821997145821020160

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