327 research outputs found
Can User-Level Probing Detect and Diagnose Common Home-WLAN Pathologies?
Common WLAN pathologies include low signal-to-noise ratio, congestion, hidden
terminals or interference from non-802.11 devices and phenomena. Prior work has
focused on the detection and diagnosis of such problems using layer-2
information from 802.11 devices and special-purpose access points and monitors,
which may not be generally available. Here, we investigate a userlevel
approach: is it possible to detect and diagnose 802.11 pathologies with
strictly user-level active probing, without any cooperation from, and without
any visibility in, layer-2 devices? In this paper, we present preliminary but
promising results indicating that such diagnostics are feasible
Automatic Ownership Change Detection for IoT devices
Considering the constant increases in Internet Of Things (IoT) smart home devices prevalence, their ownership is likely to change. This introduces novel privacy issues. Smart home devices store owner’s sensitive information, which needs to be handled securely in case of change in device ownership. Currently employed smart home devices cannot detect changes in their ownership, which raises a great number of privacy and security issues. To address this problem, we propose a system called FoundIoT for automatic detection of IoT device ownership change. FoundIoT provides a technique to detect change of ownership based on device context, which is inferred by monitoring wireless communication channels. Finally, we present a prototype implementation of FoundIoT for the proposed automatic ownership change detection technique. We show that FoundIoT achieves a satisfactory performance. The implementation is supported by a wide range of IoT devices and demonstrates a high speed (up to 1 minute 39 seconds) and 100% accuracy of ownership change detection
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Systems for pervasive electronics and interfaces
Energy Harvesting Active Networked Tags (EnHANTs) are a new type of wireless device in the domain between RFIDs and sensor networks. Future EnHANTs will be small, flexible, and self-powered devices that can be attached to everyday objects that are traditionally not networked to enable "Internet of Things" applications. This work describes the design and development of the EnHANT prototypes and testbed. The current prototypes use thin-film photovoltaics optimized for indoor light harvesting, form multihop networks using ultra-low-power Ultra-Wideband Impulse Radio (UWB-IR) transceivers, and implement energy harvesting adaptive networking protocols. The current testbed enables the evaluation of different algorithms by exposing individual prototypes to repeatable light conditions based on real-world irradiance data. New approaches to characterizing the energy available to energy harvesting devices were explored. A mobile data-logger was used to record the intensity of ambient light, determine the light source, and record the acceleration from motion during different real world activities. These traces were used to model the behavior of photovoltaic and inertial energy harvesters in real world deployments and can be replayed in the EnHANTs testbed. In addition, new techniques to evaluate the efficiency of different photovoltaic technologies under indoor illumination were developed. A proof-of-concept system was built to characterize photovoltaics under a standardized set of conditions in which the radiant intensity and spectral composition of the light source were systematically varied. Techniques to structure student research projects within the EnHANTs project were developed. Project-based learning approaches were implemented to engage students using real-world system development constraints. A survey of the students showed that this approach is an effective method for developing technical, professional, and soft skills. Open source hardware was also applied to EnHANTs project and extended into other domains. A laboratory-based class in flat panel display technology was developed. The course introduces fundamental concepts of display systems and reinforces these concepts through the fabrication of three display devices. A lab kit platform was developed to enable remote students to use low-cost, course specific hardware to complete the lab exercises remotely. This platform was also applied to external projects targeted at non-university students. A workshop was developed to teach artists, designers, and hobbyists how to design and build custom user interfaces using thin-film electronics and rapid prototyping tools. Surveys of the students and workshop participants showed that this platform is an effective teaching tool and can be easily adapted and expanded
The Impact of Operating System on Bandwidth in Open VPN Technology
The internet is a basic source of information for many specialities and uses. Such information includes sensitive data whose retrieval has been one of the basic functions of the internet. In order to protect the information from falling into the hands of an intruder, a VPN has been established. Through VPN, data privacy and security can be provided. Two main technologies of VPN are to be discussed; IPSec and Open VPN. The complexity of IPSec makes the OpenVPN the best due to the latter’s portability and flexibility to use in many operating systems. In the LAN, VPN can be implemented through Open VPN to establish a double privacy layer(privacy inside privacy). The specific subnet will be used in this paper. The key and certificate will be generated by the server. An authentication and key exchange will be based on standard protocol SSL/TLS. Various operating systems from open source and windows will be used. Each operating system uses a different hardware specification. Tools such as tcpdump and jperf will be used to verify and measure the connectivity and performance. OpenVPN in the LAN is based on the type of operating system, portability and straightforward implementation. The bandwidth which is captured in this experiment is influenced by the operating system rather than the memory and capacity of the hard disk. Relationship and interoperability between each peer and server will be discussed. At the same time privacy for the user in the LAN can be introduced with a minimum specification
Simulating and prototyping software defined networking (SDN) using Mininet approach to optimise host communication in realistic programmable networking environment
In this project, two tests were performed. On the first test, Mininet-WiFi was used to simulate a
Software Defined Network to demonstrate Mininet-WiFi’ s ability to be used as the Software
Defined Network emulator which can also be integrated to the existing network using a Network
Virtualized Function (NVF). A typical organization’s computer network was simulated which
consisted of a website hosted on the LAMP (Linux, Apache, MySQL, PHP) virtual machine, and
an F5 application delivery controller (ADC) which provided load balancing of requests sent to the
web applications. A website page request was sent from the virtual stations inside Mininet-WiFi.
The request was received by the application delivery controller, which then used round robin
technique to send the request to one of the web servers on the LAMP virtual machine. The web
server then returned the requested website to the requesting virtual stations using the simulated
virtual network. The significance of these results is that it presents Mininet-WiFi as an emulator,
which can be integrated into a real programmable networking environment offering a portable,
cost effective and easily deployable testing network, which can be run on a single computer. These
results are also beneficial to modern network deployments as the live network devices can also
communicate with the testing environment for the data center, cloud and mobile provides.
On the second test, a Software Defined Network was created in Mininet using python script. An
external interface was added to enable communication with the network outside of Mininet. The
amazon web services elastic computing cloud was used to host an OpenDaylight controller. This
controller is used as a control plane device for the virtual switch within Mininet. In order to test
the network, a webserver hosted on the Emulated Virtual Environment – Next Generation (EVENG)
software is connected to Mininet. EVE-NG is the Emulated Virtual Environment for
networking. It provides tools to be able to model virtual devices and interconnect them with other
virtual or physical devices. The OpenDaylight controller was able to create the flows to facilitate
communication between the hosts in Mininet and the webserver in the real-life network.Electrical and Mining EngineeringM. Tech. (Electrical Engineering
Software defined wireless network (sdwn) for industrial environment: case of underground mine
Avec le développement continu des industries minières canadiennes, l’établissement des réseaux de communications souterrains avancés et sans fil est devenu un élément essentiel du processus industriel minier et ceci pour améliorer la productivité et assurer la communication entre les mineurs. Cette étude vise à proposer un système de communication minier en procurant une architecture SDWN (Software Defined Wireless Network) basée sur la technologie de communication LTE. Dans cette étude, les plateformes les plus importantes de réseau mobile 4G ont été étudiées, configurées et testées dans deux zones différentes : un tunnel de mine souterrain et un couloir intérieur étroit. Également, une architecture mobile combinant SDWN et NFV (Network Functions Virtualization) a été réalisée
Multi-purpose embedded communication gateway : system design and testbed implementation
Masteroppgave i Informasjons- og kommunikasjonsteknologi IKT590 Universitetet i Agder 2014This dissertation revolves around developing a multi-purpose embedded communication gateway. The gateway is equipped with multiple communication interfaces including Ethernet, Bluetooth, WiFi, Zigbee, LTE, and it can be configured and utilized for many purposes, such as a failover of an Ethernet cable via 4G in order to maintain the network connectivity. Raspberry Pi circuit board and the operating system Raspbian are selected as the hardware and the software platforms respectively. Different communication interfaces are coordinated by the Raspberry Pi and are configured via Linux scripts according to various use cases. Furthermore, a hardware watchdog is adopted to enhance the availability of system. In addition, the system is encapsulated into a box to increase its portability. The system is validated and evaluated through rigorous test-bed experiments. Experiment results indicate that the developed router works smoothly and reliably in environments with little electrical disturbances
A Survey of Software-Defined Networking: Past, Present, and Future of Programmable Networks
accepted in IEEE Communications Surveys & TutorialsInternational audienceThe idea of programmable networks has recently re-gained considerable momentum due to the emergence of the Software-Defined Networking (SDN) paradigm. SDN, often referred to as a ''radical new idea in networking'', promises to dramatically simplify network management and enable innovation through network programmability. This paper surveys the state-of-the-art in programmable networks with an emphasis on SDN. We provide a historic perspective of programmable networks from early ideas to recent developments. Then we present the SDN architecture and the OpenFlow standard in particular, discuss current alternatives for implementation and testing of SDN-based protocols and services, examine current and future SDN applications, and explore promising research directions based on the SDN paradigm
Experimenting with commodity 802.11 hardware: overview and future directions
The huge adoption of 802.11 technologies has triggered a vast amount of experimentally-driven research works. These works range from performance analysis to protocol enhancements, including the proposal of novel applications and services. Due to the affordability of the technology, this experimental research is typically based on commercial off-the-shelf (COTS) devices, and, given the rate at which 802.11 releases new standards (which are adopted into new, affordable devices), the field is likely to continue to produce results. In this paper, we review and categorise the most prevalent works carried out with 802.11 COTS devices over the past 15 years, to present a timely snapshot of the areas that have attracted the most attention so far, through a taxonomy that distinguishes between performance studies, enhancements, services, and methodology. In this way, we provide a quick overview of the results achieved by the research community that enables prospective authors to identify potential areas of new research, some of which are discussed after the presentation of the survey.This work has been partly supported by the European Community through the CROWD project (FP7-ICT-318115) and by the Madrid Regional Government through the TIGRE5-CM program (S2013/ICE-2919).Publicad
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