Abstract
In this paper, three different controllers are proposed and simulated for maglev guiding systems to have convenient and smooth elevator motion. The proposed controllers are PID, sliding mode, and PID sliding mode controllers. The advantages and disadvantages of the proposed controllers are discussed. Although, PID controller is fast, its response affected considerably by external disturbances. Unlike PID, the sliding mode controller is so robust, but its transient is unsuitable based on application conditions. However, an acceptable controller for ropeless elevator guiding system should guaranty the passengers safety and convenient. Consequently, the response of the system should be fast, robust, and without considerable overshoots and oscillations. These required advantages are compromised in the proposed parallel PID sliding mode controller. The affectivity of the introduced controllers for maglev guiding system is investigated through conducted simulations in MATLAB/Simulink environment. The obtained results illustrate that PID sliding mode controller is a so fast and robust controller for a ropeless elevator maglev guiding system.
Highlights
Land in the world’s largest cities is extremely expensive, which drives the expansion of rentable spaces into higher and higher buildings and underground areas
The response of the system should be fast, robust, and without considerable overshoots and oscillations. These required advantages are compromised in the proposed parallel PID sliding mode controller
The obtained results illustrate that PID sliding mode controller is a so fast and robust controller for a ropeless elevator maglev guiding system
Summary
Land in the world’s largest cities is extremely expensive, which drives the expansion of rentable spaces into higher and higher buildings and underground areas. A fuzzy, fuzzy PI and PID controllers based on feedback linearization are proposed in [2,10,11], respectively In these studies, just one of the Figure 1. A method is proposed in [12] for controlling the ropeless elevator air gaps by manipulating driven double side linear motor normal forces. This controller can handle the car air gap just in one direction. A PID sliding mode controller is proposed for ropeless elevator suspension system.
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