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Adaptive Vertical Handoff for Integrated UMTS and WLAN NetworksBai, Liping 26 October 2007 (has links)
Next-generation wireless networks have been envisioned to be an integration of heterogeneous wireless access networks such as UMTS (Universal Mobile Telecommunication Networks) and the IEEE 802.11 based
WLAN (Wireless Local Area Networks). It is an
important and challenging issue to support seamless vertical handoff management in such an integrated architecture that provides the mobile users uninterrupted service continuity anywhere, any time.
In such a networking environment, the signaling delay of the vertical handoff is not fixed due to the traffic load in the backbone Internet, wireless channel quality and the distance between a mobile node and its home network. However, the currently handoff solutions implicitly considers the signaling delay as a constant value.
In this thesis, we study a typical link layer assisted handoff, identifying its deficiency due to the considerably large handoff delay. We propose an adaptive vertical handoff management scheme for integrated UMTS and WLAN networks. The proposed scheme incorporates the idea of pre-handoff with adaptive handoff threshold. We estimate the handoff signaling delay in advance, therefore, providing the delay information required for making an adaptive handoff decision. Instead of setting a fixed threshold, an adaptive handoff threshold value is determined for every single MN based on the estimated handoff signaling delay. The RSS and the RSS's rate of change are used to determine the estimated handoff time instant. Extensive simulation has been conducted to verify the performance of the proposed handoff scheme.
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Adaptive Vertical Handoff for Integrated UMTS and WLAN NetworksBai, Liping 26 October 2007 (has links)
Next-generation wireless networks have been envisioned to be an integration of heterogeneous wireless access networks such as UMTS (Universal Mobile Telecommunication Networks) and the IEEE 802.11 based
WLAN (Wireless Local Area Networks). It is an
important and challenging issue to support seamless vertical handoff management in such an integrated architecture that provides the mobile users uninterrupted service continuity anywhere, any time.
In such a networking environment, the signaling delay of the vertical handoff is not fixed due to the traffic load in the backbone Internet, wireless channel quality and the distance between a mobile node and its home network. However, the currently handoff solutions implicitly considers the signaling delay as a constant value.
In this thesis, we study a typical link layer assisted handoff, identifying its deficiency due to the considerably large handoff delay. We propose an adaptive vertical handoff management scheme for integrated UMTS and WLAN networks. The proposed scheme incorporates the idea of pre-handoff with adaptive handoff threshold. We estimate the handoff signaling delay in advance, therefore, providing the delay information required for making an adaptive handoff decision. Instead of setting a fixed threshold, an adaptive handoff threshold value is determined for every single MN based on the estimated handoff signaling delay. The RSS and the RSS's rate of change are used to determine the estimated handoff time instant. Extensive simulation has been conducted to verify the performance of the proposed handoff scheme.
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Capacity Deficit and Link Loss in WLAN to Cellular Vertical HandoffAzhari, Seyed Vahid January 2008 (has links)
Mobile handset manufacturers have begun to include wireless LAN (WLAN) interfaces in their cellular handsets. This allows users to access WLAN networks when they are available and to revert to conventional cellular communications otherwise. In this way the handset can dynamically use the "best" available network, by switching connections between the two network interfaces. This switching is referred to as a vertical handoff (VHO). When handling real-time connections, handsets must be capable of performing a
seamless vertical handoff. This occurs when the interface switching does not disrupt the quality of service requirements of the active connections. Vertical handoffs are generally time consuming, and this delay creates a difficult problem since WLAN coverage can be lost very abruptly. In this thesis, we propose and investigate several methods of mitigating this problem. A solution based on using a Vertical Handoff Support Node (VHSN) is proposed.
When the WLAN link is lost, the VHSN is able to quickly redirect packets through the local cellular base-station during the time that handoff is taking place. This approach can eliminate VHO link loss. It is shown that the act of WLAN-to-cellular handoff can result in a severe bandwidth deficit problem on the WLAN. A novel bandwidth reservation and securing mechanism is proposed which overcomes this problem and performs significantly better than schemes based on modified versions of the static guard channel scheme used in cellular networks. The work is characterized by simulation and analytic models which investigate the key performance aspects of this type
of system. / Thesis / Doctor of Philosophy (PhD)
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Vertical Handoff between 802.11 and 802.16 Wireless Access NetworksZhang, Yongqiang January 2008 (has links)
Heterogeneous wireless networks will be dominant in the next-generation wireless networks with the integration of various wireless access networks. Wireless mesh networks will become to a key technology as an economically viable solution for wide deployment of high speed, scalable and ubiquitous wireless Internet services. In this thesis, we consider an interworking architecture of wireless mesh backbone and propose an effective vertical handoff scheme between 802.11 and 802.16 wireless access networks. The proposed vertical handoff scheme aims at reducing handoff signaling overhead on the wireless backbone and providing a low handoff delay to mobile nodes. The handoff signaling procedure in different scenarios is discussed. Together with call admission control, the vertical handoff scheme directs a new call request in the 802.11 network to the 802.16 network, if the admission of the new call in the 802.11 network can degrade quality-of-service (QoS) of the existing real-time traffic flows. Simulation results demonstrate the performance of the handoff scheme with respect to signaling cost, handoff delay, and QoS support.
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Vertical Handoff between 802.11 and 802.16 Wireless Access NetworksZhang, Yongqiang January 2008 (has links)
Heterogeneous wireless networks will be dominant in the next-generation wireless networks with the integration of various wireless access networks. Wireless mesh networks will become to a key technology as an economically viable solution for wide deployment of high speed, scalable and ubiquitous wireless Internet services. In this thesis, we consider an interworking architecture of wireless mesh backbone and propose an effective vertical handoff scheme between 802.11 and 802.16 wireless access networks. The proposed vertical handoff scheme aims at reducing handoff signaling overhead on the wireless backbone and providing a low handoff delay to mobile nodes. The handoff signaling procedure in different scenarios is discussed. Together with call admission control, the vertical handoff scheme directs a new call request in the 802.11 network to the 802.16 network, if the admission of the new call in the 802.11 network can degrade quality-of-service (QoS) of the existing real-time traffic flows. Simulation results demonstrate the performance of the handoff scheme with respect to signaling cost, handoff delay, and QoS support.
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Implementation of Mobile-IP based Vertical Handoff in a Heterogeneous WiMAX and WLANHuang, Kun-Shi 28 June 2007 (has links)
Many different wireless technologies have increased the demand of accessing Internet resources through wireless networks. One of the most popular applications is watching multimedia streaming over wireless. However, when a user is roaming in a heterogeneous network, he needs to acquire adequate bandwidth from different wireless access points. In this Thesis, we propose a Mobile-IP based vertical handoff scheme in a heterogeneous WiMAX and WLAN. When a mobile node is in the overlapped area of WiMAX and WLAN, it may have to execute the vertical handoff based on the received average signal strength, the transmitting queue length of network interface, and the available network bandwidth. Our goal is to reduce the influences of RTP-based video streaming when the network is congested and when a mobile node executes the vertical handoff in the heterogeneous network.
We implement the Dynamic Mobile-IP based vertical handoff on Linux platform by modifying handoff decisions between WiMAX and WLAN. The above-mentioned performance parameters are implemented as modules on Linux platform. At last, we prove that our scheme can effectively improve packet loss ratio and system processing ratio. As a result, the frame mosaic phenomenon and frame slow-playing phenomenon in RTP-based video streaming can be significantly improved.
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An Analytical Model of Channel Preemption Mechanism for WLAN-embedded Cellular NetworksWei, Wei-Feng 28 June 2007 (has links)
The rapid growth of wireless and cellular technologies in recent years has brought in various applications in our daily life. Thus, the integration between WLAN and cellular networks has attracted more and more attention to researchers.
In this Thesis, we proposed a preemptive channel allocation mechanism for WLAN-embedded cellular networks. In such integrated networking environments, frequent handoffs may result in dramatic performance degradation. In our model, a mobile node first utilizes the cellular network for supporting high mobility. However, the capacity of a BS is easily saturated. To minimize session blocking, a mobile node outside the WLAN coverage can preempt the channel(s) occupied by a mobile node inside the WLAN coverage. The preempted mobile node can still get access to the Internet through the AP of WLAN. For the purpose of performance evaluation, we build a three-dimension Markov Chain to analyze the proposed mechanism. We derive the residence time inside the WLAN coverage and outside the WLAN coverage, respectively. Finally, we evaluate the overall network performance in terms of the number of active sessions over WLAN, the channel utilization of a BS, the probability of session blocking, the preemption probability, and the preempted probability. From the evaluation, we observe the relative performance improvements of our proposed channel preemption mechanisms.
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Vertical Handoff Target Selection in a Heterogeneous Wireless Network Using Fuzzy ELECTRERamalingam, Mukesh 02 July 2015 (has links)
Global connectivity is on the verge of becoming a reality to provide high-speed, high-quality, and reliable communication channels for mobile devices at anytime, anywhere in the world. In a heterogeneous wireless environment, one of the key ingredients to provide efficient and ubiquitous computing with guaranteed quality and continuity of service is the design of intelligent handoff algorithms. Traditional single-metric handoff decision algorithms, such as Received Signal Strength (RSS), are not efficient and intelligent enough to minimize the number of unnecessary handoffs, decision delays, call-dropping and blocking probabilities.
This research presents a novel approach for of a Multi Attribute Decision Making (MADM) model based on an integrated fuzzy approach for target network selection.
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An intelligent vertical handoff decision algorithm in next generation wireless networksNkansah-Gyekye, Yaw January 2010 (has links)
<p>The objective of the thesis research is to design such vertical handoff decision algorithms in order for mobile field workers and other mobile users equipped with contemporary multimode mobile devices to communicate seamlessly in the NGWN. In order to tackle this research objective, we used fuzzy logic and fuzzy inference systems to design a suitable handoff initiation algorithm that can handle imprecision and uncertainties in data and process multiple vertical handoff initiation parameters (criteria) / used the fuzzy multiple attributes decision making method and context awareness to design a suitable access network selection function that can handle a tradeoff among many handoff metrics including quality of service requirements (such as network conditions and system performance), mobile terminal conditions, power requirements, application types, user preferences, and a price model / used genetic algorithms and simulated annealing to optimise the access network selection function in order to dynamically select the optimal available access network for handoff / and we focused in particular on an interesting use case: vertical handoff decision between mobile WiMAX and UMTS access networks. The implementation of our handoff decision algorithm will provide a network selection mechanism to help mobile users select the best wireless access network among all available wireless access networks, that is, one that provides always best connected services to users.</p>
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An intelligent vertical handoff decision algorithm in next generation wireless networksNkansah-Gyekye, Yaw January 2010 (has links)
<p>The objective of the thesis research is to design such vertical handoff decision algorithms in order for mobile field workers and other mobile users equipped with contemporary multimode mobile devices to communicate seamlessly in the NGWN. In order to tackle this research objective, we used fuzzy logic and fuzzy inference systems to design a suitable handoff initiation algorithm that can handle imprecision and uncertainties in data and process multiple vertical handoff initiation parameters (criteria) / used the fuzzy multiple attributes decision making method and context awareness to design a suitable access network selection function that can handle a tradeoff among many handoff metrics including quality of service requirements (such as network conditions and system performance), mobile terminal conditions, power requirements, application types, user preferences, and a price model / used genetic algorithms and simulated annealing to optimise the access network selection function in order to dynamically select the optimal available access network for handoff / and we focused in particular on an interesting use case: vertical handoff decision between mobile WiMAX and UMTS access networks. The implementation of our handoff decision algorithm will provide a network selection mechanism to help mobile users select the best wireless access network among all available wireless access networks, that is, one that provides always best connected services to users.</p>
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