Research Articles
Analysis of Connectivity and Session Management for Mobile Peer-to-Peer
Applications (081-112)
Otso Kassinen, Timo Koskela, Erkki
Harjula, Jukka Riekki, and Mika Ylianttila
Mobile applications utilizing wireless networks are growing in
popularity as increasingly capable terminals and advanced networking
technologies emerge. In order to provide a seamless user experience,
applications must be able to rely on an intelligent mobile middleware
that hides the complexity of underlying technologies and allows
developers to solve application-specific problems instead. A middleware
should take care of generic networking functionality such as management
of user communities, signalling for sessions, interaction with
content-licensing services, and management of the terminal’s networking
resources. This paper focuses on two major components of a prototype
peer-to-peer networking middleware: a solution for connectivity
management and another for session management. First, the connectivity
management solution is discussed. The solution formalizes cross-layer
resource optimization and employs upgradeable state machines to make
connectivity selections based on context data and user preference,
aiming to always provide the best connection for different
communications and keep the system extensible. Second, the session
management solution is discussed. The solution enables installation of
missing software dynamically on a terminal when another user proposes a
mutual application session. This greatly increases users’ possibilities
to initiate sessions with each other. In this paper, design principles
behind each of the novel solutions are studied, their prototype
implementations are evaluated on the Symbian smartphone platform, and
they are contrasted with existing technologies. A lightweight Session
Initiation Protocol (SIP) stack has also been implemented as a component
for the middleware. Future work concerning the connectivity and session
management solutions includes evaluation of the technologies in more
realistic settings than was possible within the work for this paper.
Fault Tolerance in the Mobile
Environment (113-124)
Daniel C.
Doolan, Sabin Tabirca, and Laurence T. Yang
In general it is assumed that a parallel program will execute on
reliable hardware. A fault tolerant program and underlying
infrastructure should be capable of surviving failures such as system
crashes and network failures. At the highest level the application
should be capable of automatically recovering from a set of faults
without any change to the apparent behaviour of the program. The process
of checkpointing may be used to allow a program to save its state to
persistent storage, abort and restart from the checkpoint. Several fault
tolerant MPI implementations are currently in existence, for example
MPICH-V is considered to be one of the most complete, featuring
checkpointing and message logs to allow aborted processes to be
replaced. No matter how sophisticated a fault tolerant system may be, it
can never be completely relied upon, as there is always the possibility
of a complete system failure. It is one thing to develop fault tolerant
applications on high end dedicated clusters and supercomputers, however
applying fault tolerance to the realm of mobile parallel computing
presents an entire new series of challenges that are inexorably linked
with the unpredictable nature of wireless communication systems. Two
differing strategies for fault tolerance in the mobile Bluetooth
wireless environment will be presented and compared to see which should
be adopted over another.
A New Lossy and Lossless Image Representation by using Non-symmetry and
Anti-packing Model with Rectangles for Gray Images (125-139)
Mudar Sarem, Yun-Ping Zheng, and
Chuan-Bo Chen
With the rapid development of mobile
communication systems, demands for the transmission of multimedia
information are increasing day by day. The effective transmission of
images can be increased by getting smaller image file that is obtained
by compression. However, image quality is often sacrificed in the
compression process. Therefore, there is a need to represent images with
less data storage without sacrificing the image quality. In this paper,
inspired by the concept of the packing problem, we present a new
Non-symmetry and Anti-packing Model with Rectangles (NAMR) for lossy and
lossless image representation in order to represent the pattern more
effectively and flexiblely. Also, in this paper, we propose an algorithm
of NAMR and analyze the data amount of this algorithm. The theoretical
analyses and experimental results presented in this paper show that when
the representation method of NAMR is compared with that of the popular
linear quadtree, not only can the former reduce the data storage much
more effectively than the latter in lossless case, but also the former
has a better reconstruction quality than the latter in lossy case.
An Event-Driven Wearable
System for Supporting Pit-crew and Audiences on Motorbike Races (140-157)
Tsutomu
Terada, Masakazu Miyamae, Yasue Kishino, Takahito Fukuda, and Masahiko
Tsukamoto
Motorbike racing is one of the most popular motorsports and many fans
visit circuits to watch races. However, since audiences and pit crews
can only obtain limited information, it is difficult for them to get
detailed information about teams except for high ranking teams and few
popular teams. To solve this problem, we propose an information browsing
system for pit crews and audiences who use wearable computers. This
system allows pit crew to browse for various race information easily and
effortlessly, and it can entertain audiences much more.
Distributed Information Management and
Publish/Subscribe in VANETs (158-180)
Vivian Prinz,
Michele Brocco, and Wolfgang. Woerndl
Wireless communication is particularly powerful in vehicular ad hoc
networks (VANETs) as it implies important possibilities to enhance
traffic safety. For this purpose, a car-to-car (C2C) communication
system should provide distributed information management. For example,
it should guarantee the availability of a black ice warning for the
duration of its validity. In addition, the Publish/Subscribe (Pub/Sub)
paradigm allows for information filtering and tracking of changes in the
information environment. Thus, vehicles could monitor traffic changes,
for example.}{This article introduces the application of structured
peer-to-peer (P2P) algorithms and P2P/Distributed Hash Table (DHT)-based
Pub/Sub for the named functionalities. To allow for their application
given high mobilities and to provide location-awareness, the vehicular
network is segmented into separate, interacting P2P networks. Cars
manage information of their own segment and exchange them between
adjacent segments if necessary. The Pub/Sub functionality is built on
top of the P2P segments' DHTs. This way, Pub/Sub can be applied as there
is no need to maintain a vehicular broker tree. The proposed solution
enables C2C applications to publish information referring to certain
areas or validity durations. In addition, they can request, modify and
delete this information and solely interested vehicles can be notified
about these events.
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