Stability analysis of mobile cranes and determination of outriggers loading

Romanello, Giuseppe

doi:10.1108/jedt-05-2018-0084

Cited by 11 publications

(6 citation statements)

References 11 publications

(13 reference statements)

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“…These discussions were usually held in collaboration with three other researchers actively involved in crane operations, which further enhance the authenticity of such decisions. In this process, articles containing search keywords in their abstracts but did not investigate CLP were removed, such as Tam and Fung (2011) and Romanello (2018). Some other articles focused on the structural stability of cranes, such as El Ouni et al (2021), were also omitted.…”

Section: Methodsmentioning

confidence: 99%

Trends and developments of on-site crane layout planning 1983–2020: bibliometric, scientometric and qualitative analyses

Tariq

Hussein

Wang

et al. 2021

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Purpose This study aims to thoroughly examine the trends and developments of crane layout planning (CLP) in the construction field and reveal future research directions for modular integrated construction (MiC). Design/methodology/approach Through a rigorous systematic mixed-review methodology that integrates bibliometric, scientometric and qualitative analysis, this study explored the crane layout research trend; the scientometric analysis of journal sources and keywords occurrence network; the research contributions and links between influential countries; the classification of research articles based on the type of problems and solution approaches; the qualitative analysis of existing findings and research gaps; and the future research direction for CLP in MiC. Findings This study found five categories under the CLP domain, namely, crane selection, crane location, integrated crane selection and location, integrated crane location and allocation of supply points and hybrid problems. The major research approaches used to solve CLP is optimization (43%), visualization (23%), decision support systems (16%), simulation (11%) and qualitative techniques (7%). The possible future research directions include artificial intelligence-based models, multi-crane locations, CLP for MiC re-use, dynamic models representing real-life scenarios and building information modeling-based virtual reality models. Originality/value Through a mixed-review methodology, this study provides a comprehensive analysis of problem settings and solution methods of CLP while mitigating the subjectivity of traditional review methods. Also, it presents a repertoire on CLP and illuminates future directions for seasoned researchers in the context of MiC.

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Section: Methodsmentioning

confidence: 99%

Trends and developments of on-site crane layout planning 1983–2020: bibliometric, scientometric and qualitative analyses

Tariq

Hussein

Wang

et al. 2021

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“…At present, leveling mechanisms can be divided from the number of legs into three-point supports, four-point supports, six-point supports and many other ways (Romanello, 2018; Tang et al , 2021; Tang and Chen, 2017), as shown in Figure 2.…”

Section: Design and Selection Of Key Partsmentioning

confidence: 99%

Design and study on the leveling mechanism of the tractor body in hilly and mountainous areas

Lü

Liu

LÜ

et al. 2022

JEDT

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Purpose This study aims to improve the automatic leveling performance of tractor body in hilly and mountainous areas by designing a kind of controllable and adaptive leveling mechanism of tractor body. Design/methodology/approach The mechanism is mainly composed of longitudinal slope leveling mechanism, transverse slope leveling mechanism and control components. According to the tractor body attitude in operation, the longitudinal slope leveling and lateral slope leveling can coordinate to realize the adaptive adjustment of tractor body. For this mechanism, the support mode of the linear three-point support and plane positioning combining is designed, and the leveling method of electromechanical combination is designed. The servo motor controls the longitudinal slope leveling mechanism through the reducer with self-locking function to realize the longitudinal leveling, and the servo driver controls the expansion and contraction of electric cylinder to realize lateral leveling. The designed mode can realize the relative independence and coordination of leveling in different directions. Findings The performance test results of the leveling mechanism are shown: the mechanism can work normally; the leveling accuracy can reach within 1°; and the leveling accuracy and stability can meet the design requirements. The leveling accuracy and stability of longitudinal slope are higher than that of lateral slope, and the coordination leveling effect of longitudinal slope and lateral slope is better than that of the independent leveling. Originality/value This study provides a technical reference for the design of leveling device of agricultural machines and tools in hilly and mountainous areas.

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“…These robots are vulnerable to rollover or tip over, especially when they work on uneven or sloped terrains, or when they exert large forces or move heavy payloads. Outriggers have been used as stabilizers in mobile cranes, for example, Jeng et al (2010) and Romanello (2018), and mobile robotics applications, for example, Ohashi et al (2016), to level these systems and increase their safety.…”

Section: Introductionmentioning

confidence: 99%

Vibration control of very large and lightweight structures mounted on a four-legged platform

Feliu-Talegón¹,

Feliu-Batlle

2022

Journal of Vibration and Control

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Large lightweight slender links mounted on mobile robots enlarge their workspace. This work presents one of these robots that has been endowed with 4 legs to improve its static stability—which is put at risk by the large link—and help in the positioning of the link. The efficiency of this system depends on its accuracy in positioning and orientating the end-effector placed at the tip of the link, which is compromised by vibrations that appear in the link during the movement and permanent deflections caused by gravity. A relatively simple control scheme that combines a feedback control of the pose of the mobile platform with a feedforward term that orientates the link is proposed. It uses three legs as actuators; and feeds back measurements of the extensions of the three legs and the orientation of the platform given by an inertial sensor placed in the upper part of the mobile platform. Based on the flatness property of a simplified dynamic model of the link, its dynamics can be easily inverted, being used to implement the proposed feedforward term. Since such feedforward term is used, extra sensors to measure the deflection of the link are not needed, and since the legs are used to move the link, extra actuators mounted on the link are neither needed. All this allows us to reduce the weight and the volume of the payload carried by the mobile platform. Results obtained through a finite elements software and experimentation of the real prototype show the good performance attained with the proposed control strategy.

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Stability analysis of mobile cranes and determination of outriggers loading

Cited by 11 publications

References 11 publications

Trends and developments of on-site crane layout planning 1983–2020: bibliometric, scientometric and qualitative analyses

Trends and developments of on-site crane layout planning 1983–2020: bibliometric, scientometric and qualitative analyses

Design and study on the leveling mechanism of the tractor body in hilly and mountainous areas

Vibration control of very large and lightweight structures mounted on a four-legged platform

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