211 research outputs found

    Message Complexity Analysis of Mobile Ad Hoc Network (Manet) Address Autoconfiguration Protocols

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    This dissertation proposes a novel method to perform a quantitative analysis of message complexity and applies this method in comparing the message complexity among the mobile ad hoc network (MANET) address autoconfiguration protocols. The original publications on the address autoconfiguration protocols had many incomplete parts making them insufficient to use on practical MANETs. Therefore, the first objective of the executed research was to complete the address autoconfiguration protocols by filling in all the missing gaps to make them operational. The missing procedures that were filled in have been developed based on the most logical procedures being faithful to the original protocol publications. In this dissertation, to obtain the upper bound of the message complexity of the protocols, the O-notation of a MANET group of N nodes has been applied. To asymptotically calculate the total number of messages generated by a protocol's step or procedure, an investigation on the nodes broadcasting, unicasting, relaying, and receiving messages is conducted and used in obtaining the upper bound of the message complexity for each protocol.School of Electrical & Computer Engineerin

    Randomized Initialization of a Wireless Multihop Network

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    Address autoconfiguration is an important mechanism required to set the IP address of a node automatically in a wireless network. The address autoconfiguration, also known as initialization or naming, consists to give a unique identifier ranging from 1 to nn for a set of nn indistinguishable nodes. We consider a wireless network where nn nodes (processors) are randomly thrown in a square XX, uniformly and independently. We assume that the network is synchronous and two nodes are able to communicate if they are within distance at most of rr of each other (rr is the transmitting/receiving range). The model of this paper concerns nodes without the collision detection ability: if two or more neighbors of a processor uu transmit concurrently at the same time, then uu would not receive either messages. We suppose also that nodes know neither the topology of the network nor the number of nodes in the network. Moreover, they start indistinguishable, anonymous and unnamed. Under this extremal scenario, we design and analyze a fully distributed protocol to achieve the initialization task for a wireless multihop network of nn nodes uniformly scattered in a square XX. We show how the transmitting range of the deployed stations can affect the typical characteristics such as the degrees and the diameter of the network. By allowing the nodes to transmit at a range r= \sqrt{\frac{(1+\ell) \ln{n} \SIZE}{\pi n}} (slightly greater than the one required to have a connected network), we show how to design a randomized protocol running in expected time O(n3/2log2n)O(n^{3/2} \log^2{n}) in order to assign a unique number ranging from 1 to nn to each of the nn participating nodes

    Auto-Configuration Protocols in Mobile Ad Hoc Networks

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    The TCP/IP protocol allows the different nodes in a network to communicate by associating a different IP address to each node. In wired or wireless networks with infrastructure, we have a server or node acting as such which correctly assigns IP addresses, but in mobile ad hoc networks there is no such centralized entity capable of carrying out this function. Therefore, a protocol is needed to perform the network configuration automatically and in a dynamic way, which will use all nodes in the network (or part thereof) as if they were servers that manage IP addresses. This article reviews the major proposed auto-configuration protocols for mobile ad hoc networks, with particular emphasis on one of the most recent: D2HCP. This work also includes a comparison of auto-configuration protocols for mobile ad hoc networks by specifying the most relevant metrics, such as a guarantee of uniqueness, overhead, latency, dependency on the routing protocol and uniformity

    Comparison of DP Effects in MANET AAPs with Link Error

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    Design and Implementation of ID Based MANET Autoconfiguration Protocol

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    Auto-configuration protocols are used for assignment of unique IP addresses to nodes in Mobile ad hoc networks. Without the assignment of unique IP addresses, service provisioning between the nodes is not possible. Such protocols use various heuristics to ensure the uniqueness in IP address assignment; such aspects increase the overall complexity in MANET system design. Moreover the overriding role of IP address as an ID in Application layer and Locator in routing space is a bottleneck in future wireless network (FWN) design. Contemporary FWN research is focusing on ID/Locator split concept designs. In this paper we propose an ID/Locator based architecture for MANETs which also solves               auto-configuration requirements for MANETs. Our proposed architecture is an adaptation from available ID/Locator split concepts for infrastructure oriented networks for usage in MANET context. The designed protocol uses identifiers for node identification, node discovery and traffic flow between end points. The protocol support provision for running contemporary IP oriented services. We have also verified various use cases of our proposed protocol through Linux based implementation

    Experimental evaluation of the usage of ad hoc networks as stubs for multiservice networks

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    This paper describes an experimental evaluation of a multiservice ad hoc network, aimed to be interconnected with an infrastructure, operator-managed network. This network supports the efficient delivery of services, unicast and multicast, legacy and multimedia, to users connected in the ad hoc network. It contains the following functionalities: routing and delivery of unicast and multicast services; distributed QoS mechanisms to support service differentiation and resource control responsive to node mobility; security, charging, and rewarding mechanisms to ensure the correct behaviour of the users in the ad hoc network. This paper experimentally evaluates the performance of multiple mechanisms, and the influence and performance penalty introduced in the network, with the incremental inclusion of new functionalities. The performance results obtained in the different real scenarios may question the real usage of ad-hoc networks for more than a minimal number of hops with such a large number of functionalities deployed

    Dinamička distribucija sigurnosnih ključeva i koalicijski protokol IP adresa za mobilne ad hoc mreže

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    In mobile adhoc networks (MANETs) a tree-based dynamic address auto-configuration protocol (T-DAAP) is one of the best protocols designed for address assignment as far as the network throughput and packet delays are concerned. Moreover, MANET security is an important factor for many applications given that any node can listen to the channel and overhear the packets being transmitted. In this paper, we merge the address assignment with the security key delivery into one protocol, such that a node in the MANET is configured with IP address and security key simultaneously. To the best of our knowledge, no single protocol provides concurrent assignment of IP addresses and security keys for MANET nodes. The proposed method, which is based on T-DAAP, shows significant enhancements in the required control packets needed for assigning network nodes IP addresses and security keys, MAC layer packets, total end-to-end delay, and channel throughput over those obtained when using separate protocols. Additionally, it provides not only efficient security keys to the nodes from the first moment they join the network, but also secure delivery of the address and security key to all participating nodes. It is noteworthy to mention that providing a complete security model for MANET to detect and countermeasure network security threats and attacks is beyond the scope of our proposed protocol.Kod mobilnih ad hoc mreža (MANET) dinamički protokol za autokonfiguraciju adresa baziran na stablu (T-DAAP) je jedan od najboljih protokola dizajniranih za dodjelu adresa iz perspektive propusnosti mreže i i kašnjenja paketa. štoviše, sigurnost MANET-a je važan faktor za mnoge aplikacije s obzirom da bilo koji čvor može osluškivati kanal i slučajno čuti pakete koji se šalju. U ovom radu, dodjela adresa i dostava sigurnosnih ključeva spojeni su u jedan protokol tako da je čvor u MANET-u konfiguriran simultano s IP adresom i sigurnosnim ključem. Prema saznanjima autora, niti jedan postojeći protokol ne pruža istovremeno dodjeljivanje IP adrese i sigurnosnog ključa za MANET čvorove. Predložena metoda, koja se bazira na T-DAAP-u, pokazuje značajna poboljšanja u odnosu na metode koje koriste odvojene porotokole, kod traženih kontrolnih paketa koji su potrebni za dodjeljivanje IP adresa i sigurnosnih ključeva čvorovima mreže, MAC paketa, ukupnog end-to-end kašnjenja i propusnosti kanala. Dodatno pruža ne samo efikasne sigurnosne ključeve čvorovima od trenutka kad se priključe mreži, nego i sigurno dostavljanje adrese i sigurnosnog ključa svim čvorovima koji sudjeluju u mreži. Važno je spomenuti da je pružanje cjelokupnog sigurnosnog modela za MANET koji detektira dodatno i protumjere prijetnjama i napadima na sigurnost mreže izvan dosega predloženog protokola

    Ad Hoc Networking in the Internet: A Deeper Problem Than It Seems

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    Self-organized networks, also known as ad hoc networks or MANETs, are expected to soon become important components in the Internet architecture. Numerous efforts currently focus on the accomplishment of scalable and efficient mobile ad hoc routing, an essential piece in order to fully integrate ad hoc networks in the Internet. However, an orthogonal and yet as important issue lies with ad hoc IP autoconfiguration. Indeed, prior to participation in IP communication and routing, a node must acquire IP addresse(s) to configure its interface(s). These IP addresses may be required to be unique within a certain scope and/or topologically "correct". Since nodes may be mobile and neither the set of nodes in the MANET nor their connections to each other is pre-determined, the proper configuration must be detected and acquired automatically. This paper reviews the applicability, in the particular context of MANETs, of standard automatic address configuration and prefix allocation protocols, and identifies the different categories of issues that are not solved by these protocols. The paper then elaborates further on why these issues are more profound than they seem, as they pertain to graph theory and are in fact real scalability and architectural issues for the Internet of tomorrow
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