Synonyme wurden verwendet für: Stability space space vehicles vehicles
Suche ohne Synonyme: keywords:(Stability of space vehicles)

1–12 von 12 Ergebnissen
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    Spacecraft System Engineering

    Tatnall, Adrian R. L. / Farrow, John B. / Bandecchi, Massimo et al. | Wiley | 2011
    Schlagwörter: mission requirements ‐ top level requirements on spacecrafts , system engineering ‐ space programmes, and individual phases , ESA CDF, and European Space Agency (ESA) , concurrent engineering ‐ in space system engineering applications , system engineering techniques ‐ boundaries of system engineering discipline , case study of CryoSat ‐ first of ESA's Earth Explorer satellites

    Optimal Spacecraft Attitude Control

    Tewari, Ashish | Wiley | 2011
    Schlagwörter: spacecraft control torques ‐ applied to spacecrafts , spacecraft, desired orientation ‐ attitude stability, and spacecraft control , extremal angular velocity ‐ for multi‐axis spin maneuver of spacecraft , tracking control of satellite attitude dynamics , multi‐axis rotational maneuvers of spacecraft ‐ optimal control, end‐point constraints

    Handling Characteristics of Road Vehicles

    Wong, J.Y. | Wiley | 2022
    Schlagwörter: vehicle stability control , handling characteristics of articulated vehicles , criteria for directional stability

    Finite‐time trajectory tracking control for autonomous airships with uncertainties and external disturbances

    Freier Zugriff
    Cui, Liu / Wei, Yan / Wang, Yueying | Wiley | 2020
    Schlagwörter: stability , autonomous aerial vehicles , six‐degree‐of‐freedom kinematics

    Multi‐level pedestrian signalisation atlarge four‐leg roundabouts

    Freier Zugriff
    Xu, Hongfeng / Zhang, Kun / Zheng, Qiming et al. | Wiley | 2018
    Schlagwörter: right‐of‐way , road vehicles , operational stability

    Propulsion Systems

    Moss, J. Barrie / Stark, John P. W. | Wiley | 2011
    Schlagwörter: systems classification ‐ propulsion systems for space vehicles , spacecraft propulsion ‐ and choice of systems , NERVA programme of 1960s (Nuclear Engine for Rocket Vehicle Applications) , thrust coefficient of departure effect

    Celestial Mechanics

    Stark, John P. W. / Swinerd, Graham G. / Fortescue, Peter W. | Wiley | 2011
    Schlagwörter: two‐body problem—particle dynamics ‐ motion of two co‐rotating point masses , mutual gravitational force of attraction ‐ between any two bodies , theory of celestial mechanics ‐ motion of a spacecraft prediction , orbit perturbations on space vehicles ‐ not included in Keplerian formulation

    Real‐time estimation and prediction of lateral stability of coaches: a hybrid approach based on EKF, BPNN, and online autoregressive integrated moving average algorithm

    Freier Zugriff
    Fu, Rui / Zhang, Hailun / Guo, Yingshi et al. | Wiley | 2020
    Schlagwörter: seven‐degrees‐of‐freedom vehicle model analyses , three‐degrees‐of‐freedom vehicle model , stability , road vehicles , vehicle stability estimation studies

    Practical backstepping control for underactuated ship path following associated with disturbances

    Freier Zugriff
    Liu, Zhiquan | Wiley | 2019
    Schlagwörter: marine vehicles , Lyapunov stability theorem , line‐of‐sight guidance method , asymptotic stability

    Coordinated control of steer‐by‐wire and brake‐by‐wire for autonomous emergency braking on split‐μ roads

    Freier Zugriff
    Xue, Zhongjin / Li, Chenfeng / Wang, Xiangyu et al. | Wiley | 2020
    Schlagwörter: stability , road vehicles , 7‐degree‐of‐freedom vehicle dynamics model

    Lane‐keeping control based on an improved artificial potential method and coordination of steering/braking systems

    Freier Zugriff
    Hongbo, Wang / Li, Chen / Weihua, Zhang | Wiley | 2019
    Schlagwörter: stability , road vehicles , two‐degree‐of‐freedom vehicle dynamics model

    Introduction

    Tsourdos, Antonios / White, Brian / Shanmugavel, Madhavan | Wiley | 2010
    Schlagwörter: unmanned aerial vehicles (UAVs) ‐ operating as a group , road map methods ‐ working in configuration space , military systems, and element of danger ‐ to human operators and civilian systems , autonomy, replacing human operator in many applications ‐ potential applications of UAVs in military and civilian sectors , employing group of UAVs ‐ than a single UAV, cost‐effective and fault‐tolerant systems