65,301 research outputs found
MOSDEN: A Scalable Mobile Collaborative Platform for Opportunistic Sensing Applications
Mobile smartphones along with embedded sensors have become an efficient
enabler for various mobile applications including opportunistic sensing. The
hi-tech advances in smartphones are opening up a world of possibilities. This
paper proposes a mobile collaborative platform called MOSDEN that enables and
supports opportunistic sensing at run time. MOSDEN captures and shares sensor
data across multiple apps, smartphones and users. MOSDEN supports the emerging
trend of separating sensors from application-specific processing, storing and
sharing. MOSDEN promotes reuse and re-purposing of sensor data hence reducing
the efforts in developing novel opportunistic sensing applications. MOSDEN has
been implemented on Android-based smartphones and tablets. Experimental
evaluations validate the scalability and energy efficiency of MOSDEN and its
suitability towards real world applications. The results of evaluation and
lessons learned are presented and discussed in this paper.Comment: Accepted to be published in Transactions on Collaborative Computing,
2014. arXiv admin note: substantial text overlap with arXiv:1310.405
Tackling barriers to take-up of fuel poverty alleviation measures
Although there has been much work around the take-up of fuel poverty alleviation programmes carried out this has generally focussed on evidence from frontline managers and other stakeholders. Any investigation with end users has been minimal. Funded by Eaga Partnership Charitable Trust, Sustainable Cities Research Institute carried out a community-based investigation into barriers and possible solutions to the uptake of fuel poverty alleviation programmes. A combination of desk-based research with frontline staff and Participatory Appraisal (PA) techniques with communities were used to carry out this research. 362 people took part in the PA and 17 frontline staff returned detailed questionnaires. 4 areas were studied: 3 with poor and one with good take-up. Additionally vulnerable groups of consumers were identified; elderly, Black and Minority Ethnic (BME) groups and rural consumers. Each of the 3 areas with poor take-up has a good concentration of one of the identified vulnerable groups
Efficient Opportunistic Sensing using Mobile Collaborative Platform MOSDEN
Mobile devices are rapidly becoming the primary computing device in people's
lives. Application delivery platforms like Google Play, Apple App Store have
transformed mobile phones into intelligent computing devices by the means of
applications that can be downloaded and installed instantly. Many of these
applications take advantage of the plethora of sensors installed on the mobile
device to deliver enhanced user experience. The sensors on the smartphone
provide the opportunity to develop innovative mobile opportunistic sensing
applications in many sectors including healthcare, environmental monitoring and
transportation. In this paper, we present a collaborative mobile sensing
framework namely Mobile Sensor Data EngiNe (MOSDEN) that can operate on
smartphones capturing and sharing sensed data between multiple distributed
applications and users. MOSDEN follows a component-based design philosophy
promoting reuse for easy and quick opportunistic sensing application
deployments. MOSDEN separates the application-specific processing from the
sensing, storing and sharing. MOSDEN is scalable and requires minimal
development effort from the application developer. We have implemented our
framework on Android-based mobile platforms and evaluate its performance to
validate the feasibility and efficiency of MOSDEN to operate collaboratively in
mobile opportunistic sensing applications. Experimental outcomes and lessons
learnt conclude the paper
OSCAR: A Collaborative Bandwidth Aggregation System
The exponential increase in mobile data demand, coupled with growing user
expectation to be connected in all places at all times, have introduced novel
challenges for researchers to address. Fortunately, the wide spread deployment
of various network technologies and the increased adoption of multi-interface
enabled devices have enabled researchers to develop solutions for those
challenges. Such solutions aim to exploit available interfaces on such devices
in both solitary and collaborative forms. These solutions, however, have faced
a steep deployment barrier.
In this paper, we present OSCAR, a multi-objective, incentive-based,
collaborative, and deployable bandwidth aggregation system. We present the
OSCAR architecture that does not introduce any intermediate hardware nor
require changes to current applications or legacy servers. The OSCAR
architecture is designed to automatically estimate the system's context,
dynamically schedule various connections and/or packets to different
interfaces, be backwards compatible with the current Internet architecture, and
provide the user with incentives for collaboration. We also formulate the OSCAR
scheduler as a multi-objective, multi-modal scheduler that maximizes system
throughput while minimizing energy consumption or financial cost. We evaluate
OSCAR via implementation on Linux, as well as via simulation, and compare our
results to the current optimal achievable throughput, cost, and energy
consumption. Our evaluation shows that, in the throughput maximization mode, we
provide up to 150% enhancement in throughput compared to current operating
systems, without any changes to legacy servers. Moreover, this performance gain
further increases with the availability of connection resume-supporting, or
OSCAR-enabled servers, reaching the maximum achievable upper-bound throughput
A Critical Scan of Four Key Topics for the Philanthropic Sector: A study by the Rockefeller Foundation and Accenture Development Partnerships
The study aims to identify problem areas in the developing and developed world, as well as areas of dynamism and convergence that will, over the next five to 10 years, present opportunities to make a greater impact in the development sector. The study, which made use of a consultative process, investigates four key topics central to human wellbeing. These are: natural ecosystems, health, livelihoods, and urban environments. In each of the four identified topic areas there is a greater need to foster innovation and shift paradigms in order to expand opportunity for the vulnerable and those living in poverty, and strengthen their resilience
NGOS and Internet Use in Uganda
Information technology (IT) research has ignored examining\ud
the impact of the Internet on unconnected stakeholder communities in the South. This research, which investigates how non-governmental organisations (NGOs) with connectivity are utilising the Internet for their daily operations, and how they are able to acquire and disseminate information from the Internet to their stakeholders, hopes to correct such injustices. The research was undertaken over an eight-week period in early 1998 in Uganda, East Africa. The survey involved representatives of 33 non-governmental organisations (NGOs) responding to seven openended questions related to their organisations’ use of the Internet, and their information communication patterns. The paper begins with a brief background on Uganda and its telecommunications environment, including a summary of the seven Internet Service Providers (ISPs) currently operating in the country. The survey questions are identified, and the responses are organised into thematic categories which became apparent during the course of the study. The term “Internet” is used to refer to email-only services, as well as World Wide Web services. The research found that NGOs report benefiting from their use of the Internet through reduced transmission costs, access to new and relevant information, and greater contact with their own field sites and partner organisations. NGO representatives’ responses also indicate that the dissemination of Internet-acquired information is occurring with their stakeholders, regardless whether those stakeholders have connectivity or not. The majority of NGOs surveyed (70%) have only one computer with Internet connectivity within their offices; this presents challenges and restrictions in terms of the frequency with which the Internet can be accessed. A mere 5% of the NGOs with field sites reported that those sites were connected with either email or Internet; 33% reported having field sites without any means of direct voice or data transmission systems. The\ud
majority of NGOs with World Wide Web service reported using the systems for accessing and researching documents relevant to their work, but 32% of those organisations reported that they either seldom or never used the Internet that was available to them. Most NGOs reported that they used the email to communicate with international partners; use of the\ud
Internet for local communications is low. Respondents reported that email was a very convenient mode of communications, effective in transmitting documents at lower costs than other technologies. Obtaining access to the\ud
computers, and the sending and receiving of attached documents proved the most problematic issues for respondents; the latter issue raises questions about the quality of training these organisations are receiving\ud
from their ISPs. The paper concludes with lessons learned from the research, and recommends areas for more detailed study
DIAMOnDS - DIstributed Agents for MObile & Dynamic Services
Distributed Services Architecture with support for mobile agents between
services, offer significantly improved communication and computational
flexibility. The uses of agents allow execution of complex operations that
involve large amounts of data to be processed effectively using distributed
resources. The prototype system Distributed Agents for Mobile and Dynamic
Services (DIAMOnDS), allows a service to send agents on its behalf, to other
services, to perform data manipulation and processing. Agents have been
implemented as mobile services that are discovered using the Jini Lookup
mechanism and used by other services for task management and communication.
Agents provide proxies for interaction with other services as well as specific
GUI to monitor and control the agent activity. Thus agents acting on behalf of
one service cooperate with other services to carry out a job, providing
inter-operation of loosely coupled services in a semi-autonomous way. Remote
file system access functionality has been incorporated by the agent framework
and allows services to dynamically share and browse the file system resources
of hosts, running the services. Generic database access functionality has been
implemented in the mobile agent framework that allows performing complex data
mining and processing operations efficiently in distributed system. A basic
data searching agent is also implemented that performs a query based search in
a file system. The testing of the framework was carried out on WAN by moving
Connectivity Test agents between AgentStations in CERN, Switzerland and NUST,
Pakistan.Comment: 7 pages, 4 figures, CHEP03, La Jolla, California, March 24-28, 200
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