Analysis of Panel Point Path Planning Scheme of Mobile TransducerMeshwork Based on Genetic Arithmetic
Abstract
A mobile transducermeshwork is a wireless transducermeshwork where panel points can move
flexibly and interact with the physical environment. Mobile panel points have the ability to
sense, compute, and communicate with static panel points. Compared with traditional static
meshworks, the biggest feature of mobile wireless transducermeshworks is the mobility of panel
points. The main function of transducers is to sense and collect multiple types of data
information from the surrounding environment. Transducers can be divided into two types:
mobile transducers and static transducers. Mobile transducers can collect the surrounding
environment information collected by static transducers, and then upload them to First-level
panel points. At the current stage, due to technical limitations, the battery capacity of the
transducer is limited. How to effectively use the energy of the transducer to extend the life cycle
of the meshwork is an important research challenge. The main content of this paper is to balance
the energy consume of each mobile transducerpanel point, thereby extending the life cycle of
the meshwork. In order to balance the energy consume of each mobile transducer, a
multi-mobile transducer multi-panel point path planning arithmetic based on genetic arithmetic
is used to plan a reasonable data collection route for the mobile transducer. Simulation results
show that the panel point path planning arithmetic based on genetic arithmetic can effectively
balance the energy consume of multiple mobile transducers, and can meet the requirements of
timeliness.