Driven by the ever-growing expectation of ubiquitous connectivity and the widespread adoption of IEEE 802.11 networks, it is not only highly demanded but also entirely possible for in-motion vehicles to establish convenient Internet access to roadside WiFi access points (APs) than ever before, which is referred to as Drive-Thru Internet. The performance of Drive-Thru Internet, however, would suffer from the high vehicle mobility, severe channel contentions, and instinct issues of the IEEE 802.11 MAC as it was originally designed for static scenarios. As an effort to address these problems, in this paper, we develop a unified analytical framework to evaluate the performance of Drive-Thru Internet, which can accommodate various vehicular traf...
In this dissertation, analysis and design of the efficient Medium Access Control (MAC) sub-layer sch...
Vehicular networks (VANETs) have distinctive structures that distinguish them in comparison to gener...
In this paper we propose MaxCD - a joint multi-flow scheduling and cooperative downloading protocol ...
This brief presents a unified analytical framework for the evaluation of drive-thru Internet perform...
Abstract—As IEEE 802.11 access points (APs) open up services to mobile clients, opportunistic access...
Abstract-The performance of vehicular Internet access using roadside 802.11-based APs has been exten...
Abstract—Drive-thru Internet has become a popular solution vehicular Internet access. However, the q...
Abstract—The performance of vehicular Internet access using roadside 802.11-based APs has been exten...
Drive-thru Internet is considered to be an important solution to provide Internet access for vehicle...
Abstract—Deploying city-wide 802.11 access points has made possible internet access in a vehicle, ne...
When a roadside 802.11-based wireless access point is shared by more than one vehicle, the vehicle w...
The recent advances in wireless communication techniques have made it possible for fast-moving vehic...
When a roadside 802.11-based wireless access point is shared by more than one vehicle, the vehicle w...
In this dissertation, analysis and design of the efficient Medium Access Control (MAC) sub-layer sch...
In the first part of this thesis, we focus on Drive-thru Internet systems where access points (AP) a...
In this dissertation, analysis and design of the efficient Medium Access Control (MAC) sub-layer sch...
Vehicular networks (VANETs) have distinctive structures that distinguish them in comparison to gener...
In this paper we propose MaxCD - a joint multi-flow scheduling and cooperative downloading protocol ...
This brief presents a unified analytical framework for the evaluation of drive-thru Internet perform...
Abstract—As IEEE 802.11 access points (APs) open up services to mobile clients, opportunistic access...
Abstract-The performance of vehicular Internet access using roadside 802.11-based APs has been exten...
Abstract—Drive-thru Internet has become a popular solution vehicular Internet access. However, the q...
Abstract—The performance of vehicular Internet access using roadside 802.11-based APs has been exten...
Drive-thru Internet is considered to be an important solution to provide Internet access for vehicle...
Abstract—Deploying city-wide 802.11 access points has made possible internet access in a vehicle, ne...
When a roadside 802.11-based wireless access point is shared by more than one vehicle, the vehicle w...
The recent advances in wireless communication techniques have made it possible for fast-moving vehic...
When a roadside 802.11-based wireless access point is shared by more than one vehicle, the vehicle w...
In this dissertation, analysis and design of the efficient Medium Access Control (MAC) sub-layer sch...
In the first part of this thesis, we focus on Drive-thru Internet systems where access points (AP) a...
In this dissertation, analysis and design of the efficient Medium Access Control (MAC) sub-layer sch...
Vehicular networks (VANETs) have distinctive structures that distinguish them in comparison to gener...
In this paper we propose MaxCD - a joint multi-flow scheduling and cooperative downloading protocol ...