Control of nanorobot motion in a quantum alpha field

An alpha field is the field that can be described by two dimensionless field parameters α and α'. A quantum alpha field is the alpha field in which quantum effects can be occurred. In classical mechanics, a nanorobot has, at every moment, an exact position and an exact momentum, following the Newton’s laws of motion. In quantum mechanics, nanorobots do not have exactly determined properties and when they are measured, the result is randomly drawn from a probability distribution. The classical approaches to control of nanorobot motion in the multipotential field have been presented in the authors previous papers. In this paper we continue to investigate the related control algorithms for a nanorobot motion in a quantum alpha field. In that sense the nanorobot dynamics has been described by the Schrodinger equation in an alpha field that predicts what the probability distributions are. Meanwhile, it cannot fundamentally predict the exact result of each measurement. Thus, the problem is: how to control of a nanorobot motion in the case when quantum effects are occurred. Some approaches are discussed in this paper.