An applicable procedure for design, optimization, and manufacturing of a remotely piloted helicopter (RPH) is studied analytically and experimentally. The procedure is presented in four main phases of conceptual design, detailed design, manufacturing and assembly, and test and reliability analysis. Using this procedure, an RPH case study, called Parvan, for an arbitrary traffic monitoring designed and manufactured. Different subsystems of an RPH such as rotor assembly, engine and fuel systems, power transmission system, and control system for the proposed design are studied at each phase accordingly. Final ly, 3-D multiplatform software of CATIA is used to simulate the RPH and making the ful l-scaled prototype. The successful performance of Parvan at hover, climb, and forward flight modes showed the effectiveness of the proposed procedure in developing an RPH.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Development of a Remotely Piloted Helicopter for Civil Applications


    Contributors:
    Goudarzi, N. (author) / Ziazi, R. M. (author) / Kermanshahi, F. (author) / Sadati, S. (author) / Sajedi, M. S. (author) / Mohagheghi, M. (author)


    Publication date :

    2016



    Type of media :

    Article/Chapter (Book)


    Type of material :

    Electronic Resource


    Language :

    English




    The remotely piloted helicopter

    Ford, Terence E. | Emerald Group Publishing | 1977



    A Remotely Piloted Helicopter Automatic Landing System for Shipboard Applications

    Harris, J. C. / Association for Unmanned Vehicle Systems | British Library Conference Proceedings | 1993


    Civil Uses of Remotely Piloted Aircraft

    J. R. Aderhold / G. Gordon / G. W. Scott | NTIS | 1976


    Civil Uses of Remotely Piloted Aircraft

    Aderhold, J. R. / Gordon, G. / Scott, G. W. | NTRS | 1976