Discrete Model Simulation of a Passenger Cable Car Operation

Fedorko, Gabriel; Neradilová, Hana; Jackanin, Juraj

doi:10.12913/22998624/92108

Cited by 8 publications

(5 citation statements)

References 7 publications

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“…For cable cars to be reliable, cable car operators must maintain the quality and safety of the complete equipment [17,18]. All control work should be based on a proactive prediction of critical failures, using appropriate reliability models such as, for example, failure trees [19] or simulation models [20].…”

Section: Reliability Of the Cable Carmentioning

confidence: 99%

Analysis of the Reliability of Automated Electric Motor Drives of Cable Cars at Ski Fields

Bogićević¹,

Petković²,

Kojić³

2023

adeletters

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The basic questions that arise when maintaining an automated electric drive relate to the safety and reliability of the elements in operation. The maintenance strategy of these elements is planned to start from the basic facts related to the plant’s importance, type and purpose. The main purpose of maintenance is the timely detection of a fault and its elimination, i.e. ensuring continuous operation of the plant. In this work, the operation of the cable car was analyzed by monitoring the reliability of the electric drive. An analysis of the significance of reliability coefficients is a potentially new method for maintenance planning. The aim of the research was to define a new strategy for the maintenance of the facility and ensure the maximum safety of skiers through the analysis of previous events. Research is based on coefficients that indicate the reliability, frequency of failures, availability and unavailability of the elements that make up a drive. The essence of the conducted research is based on a new strategy for planning and maintaining such a facility, aiming to ensure skiers’ safety and protection.

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Section: Reliability Of the Cable Carmentioning

confidence: 99%

Analysis of the Reliability of Automated Electric Motor Drives of Cable Cars at Ski Fields

Bogićević¹,

Petković²,

Kojić³

2023

adeletters

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“…[3] In practice, applications have shown that the use of simulation can be widely used not only for business processes but also in such areas as transport simulation, where financial, material and personnel savings can be achieved. [4,6,10].…”

Section: Dynamic Simulationmentioning

confidence: 99%

“…Businesses have to learn to respond to their customers' demands very quickly, which can be, and often are, very specific, and which can often change with the environment and market expectations, revising legislation or sustaining society. In conjunction with Industry 4.0, dynamic simulations are being increasingly often used as an effective tool for optimizing a wide range of processes [4,12]. Especially the automotive industry is an area where the use of simulations already belongs to common practice [5].…”

Section: Introductionmentioning

confidence: 99%

Use of the Dynamic Simulation to Reduce Handling Complexity in the Manufacturing Process

Schindlerová

Šajdlerová

2020

Adv. Sci. Technol. Res. J.

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Many companies have started using dynamic simulation as full support for their own optimization team to optimize business processes. The 3D visualization can facilitate understanding of the links among processes and their connections. It can significantly contribute to its appropriate implementation, which aims at saving costs, simplifying processes, introducing new or innovated processes, etc. Application field is not significant for the 3D visualization. Predictive simulation can be applied in any process, from storage, logistics, handling, through production line optimization to distribution. The submitted paper deals with the optimization of the production process regarding the reduction of handling demands for the company in the automotive industry. Businesses are currently facing an issue of handling complexity, which has a relatively high cost, depending on the amount of unnecessary and chaotic trips within production processes. It is necessary to modify the charging method in any change of production. This is connected with an increase of non-productive rides. The article introduces the possibility of a variant solution with the possibility to use dynamic simulation as a powerful tool for the process optimization.

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“…Lee et al [11], Jung et al, [12]) to assess the significance of this impact. However, they simulated only "conventional" construction processes using conventional cranes and other conventional construction machinery [13][14][15].…”

Section: Current Situation In the Field Of Simulation Modeling In Thementioning

confidence: 99%

Construction of ropeways in Slovakia in terms of pre-construction design using helicopters (case study)

Bisták¹,

Hulínová²

2019

MATEC Web Conf.

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Ropeways usually provide access to locations inaccessible to other means of transport. Due to this fact, the construction of ropeways is extraordinarily taxing in terms of both, technology and logistics. The site location is often in terrain difficult to access, which often precludes deployment of common construction mechanisms in ropeway construction. In such case, it is advisable to deploy a transport mechanism independent of the terrain – a helicopter. Functioning as “flying cranes“, the helicopters have been used in construction industry in Slovakia for six decades now. Having amassed positive experience, even the “conventional“ construction industry of the time, especially its ropeway transport segment, started to use the benefits of helicopters, with helicopter deployment subsequently gaining ground and becoming the mainstream technological procedure. Ropeway construction can hardly be feasible without them even nowadays. Throughout the history of helicopter deployment in construction industry, a constant search of improving the efficiency of their work has been under way, necessitated by the helicopter’s sensitivitiy to weather conditions and work procedures alike. The paper presents an analysis of the factors affecting helicopter operation together with a proposed methodology of modeling their work in simulation models and the benefits of such approach.

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Discrete Model Simulation of a Passenger Cable Car Operation

Cited by 8 publications

References 7 publications

Analysis of the Reliability of Automated Electric Motor Drives of Cable Cars at Ski Fields

Analysis of the Reliability of Automated Electric Motor Drives of Cable Cars at Ski Fields

Use of the Dynamic Simulation to Reduce Handling Complexity in the Manufacturing Process

Construction of ropeways in Slovakia in terms of pre-construction design using helicopters (case study)

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