Title :
Mathematical modelling for a micro-tunnelling machine
Author :
Aihara, Shin Ichi ; Kabeuchi, Teruo
Author_Institution :
Suwa Coll., Sci. Univ. of Tokyo, Japan
Abstract :
We study a model of stochastic hyperbolic equation with free boundary. This model is motivated by a micro tunnelling machine which is used for the conduit installation for communication cables. By using this tunnelling machine, a flexible pilot pipe is thrust into ground and hence the total length of the inserted pipe becomes a function of time. Furthermore, the thrust force generated by a hydraulic pump is stochastically perturbed. The transverse displacement of the inserted pipe is firstly shown to be governed by a hyperbolic equation with free boundary by using the Hamilton principle. Secondly, the existence of a solution of this equation is studied and two digital simulation examples are demonstrated for checking the buckling phenomena to the inserted pipe.
Keywords :
cable laying; hyperbolic equations; modelling; stochastic processes; telecommunication cables; tunnelling; underground cables; Hamilton principle; buckling phenomena; communication cables; conduit installation; digital simulation examples; flexible pilot pipe; free boundary; hydraulic pump; hyperbolic equation; mathematical modelling; micro tunnelling machine; stochastic hyperbolic equation; stochastic perturbation; thrust force; transverse displacement;
Conference_Titel :
Control '96, UKACC International Conference on (Conf. Publ. No. 427)
Print_ISBN :
0-85296-668-7
DOI :
10.1049/cp:19960556
