Enhanced Antenna Position Implementation Over Vehicular Ad Hoc Network (VNET) In 3D Space

TL;DR

This paper investigates the impact of enhanced antenna positioning on vehicular ad hoc networks in 3D space, analyzing packet loss, delay, and throughput through simulation and real-world mapping.

Contribution

It introduces an enhanced antenna position system (EAPS) for improved performance in 3D vehicular networks and maps real-world problems to analytical models.

Findings

EAPS improves packet delivery in 3D VANETs

Simulation results show reduced delay and packet loss

Performance metrics align with real-world scenarios

Abstract

The technology related to networking moves wired connection to wireless connection.The basic problem concern in the wireless domain, random packet loss for the end to end connection. In this paper we show the performance and the impact of the packet loss and delay, by the bit error rate throughput etc with respect to the real world scenario vehicular ad hoc network in 3-dimension space (VANET in 3D). Over the years software development has responded to the increasing growth of wireless connectivity in developing network enabled software. In this paper we consider the real world physical problem in three dimensional wireless domain and map the problem to analytical problem . In this paper we simulate that analytic problem with respect to real world scenario by using enhanced antenna position system (EAPS) mounted over the mobile node in 3D space. In this paper we convert the real world problem into lab oriented problem by using the EAPS -system and shown the performance in wireless domain in 3 dimensional space.