4,216 research outputs found
Usability of the Stylus Pen in Mobile Electronic Documentation
Stylus pens are often used with mobile information devices. However, few studies have examined the stylus’ simple movements because the technical expertise to support documentation with stylus pens has not been developed. This study examined the usability of stylus pens in authentic documentation tasks, including three main tasks (sentence, table, and paragraph making) with two types of styluses (touchsmart stylus and mobile stylus) and a traditional pen. The statistical results showed that participants preferred the traditional pen in all criteria. Because of inconvenient hand movements, the mobile stylus was the least preferred on every task. Mobility does not provide any advantage in using the stylus. In addition, the study also found inconvenient hand support using a stylus and different feedback between a stylus and a traditional pen.This study was supported by the Dongguk University Research Fund of 2015. Support for the
University Jaume-I (UJI) Robotic Intelligence Laboratory is provided in part by Ministerio de Economía y
Competitividad (DPI2011-27846), by Generalitat Valenciana (PROMETEOII/2014/028) and by Universitat
Jaume I (P1-1B2014-52)
The Chameleon Architecture for Streaming DSP Applications
We focus on architectures for streaming DSP applications such as wireless baseband processing and image processing. We aim at a single generic architecture that is capable of dealing with different DSP applications. This architecture has to be energy efficient and fault tolerant. We introduce a heterogeneous tiled architecture and present the details of a domain-specific reconfigurable tile processor called Montium. This reconfigurable processor has a small footprint (1.8 mm in a 130 nm process), is power efficient and exploits the locality of reference principle. Reconfiguring the device is very fast, for example, loading the coefficients for a 200 tap FIR filter is done within 80 clock cycles. The tiles on the tiled architecture are connected to a Network-on-Chip (NoC) via a network interface (NI). Two NoCs have been developed: a packet-switched and a circuit-switched version. Both provide two types of services: guaranteed throughput (GT) and best effort (BE). For both NoCs estimates of power consumption are presented. The NI synchronizes data transfers, configures and starts/stops the tile processor. For dynamically mapping applications onto the tiled architecture, we introduce a run-time mapping tool
Making distributed computing infrastructures interoperable and accessible for e-scientists at the level of computational workflows
As distributed computing infrastructures evolve, and as their take up by user communities is growing, the importance of making different types of infrastructures based on a heterogeneous set of middleware interoperable is becoming crucial. This PhD submission, based on twenty scientific publications, presents a unique solution to the challenge of the seamless interoperation of distributed computing infrastructures at the level of workflows.
The submission investigates workflow level interoperation inside a particular workflow system (intra-workflow interoperation), and also between different workflow solutions (inter-workflow interoperation). In both cases the interoperation of workflow component execution and the feeding of data into these components workflow components are considered.
The invented and developed framework enables the execution of legacy applications and grid jobs and services on multiple grid systems, the feeding of data from heterogeneous file and data storage solutions to these workflow components, and the embedding of non-native workflows to a hosting meta-workflow. Moreover, the solution provides a high level user interface that enables e-scientist end-users to conveniently access the interoperable grid solutions without requiring them to study or understand the technical details of the underlying infrastructure. The candidate has also developed an application porting methodology that enables the systematic porting of applications to interoperable and interconnected grid infrastructures, and facilitates the exploitation of the above technical framework
Visualization of Tree-Structured Data Through a Multi Touch User Interface
This writing project examines different types of visualizations for tree-structured data sets. Visualizations discussed include link-node diagrams and treemap diagrams. Also discussed is recent innovations with regards to distinguishing multi touch from single touch technology. I explore the requirements needed to build a multi touch table top surface, and describe the process of building one. I then describe my proposed method of visualizing tree-structured data and how it can be implemented using Core Animation technology. I also propose a means of interacting with the data through a multi touch interface, and discuss which gestures can be used to navigate the visualization display
Recommended from our members
A survey on online monitoring approaches of computer-based systems
This report surveys forms of online data collection that are in current use (as well as being the subject of research to adapt them to changing technology and demands), and can be used as inputs to assessment of dependability and resilience, although they are not primarily meant for this use
A digital library content metadata generator for e-print
A Digital Library is normally consisting of or made upon a collection of digital objects plus the
information and services for storing, accessing and retrieving them. Digital Libraries by nature is
a very complex information system. Despite efforts being made to streamline its creation and
content population into an out of the box experience, there is still room for automation. For the
creation of Digital Library or Online Repositories as it also known, the availability of free open
source software such as EPrints developed at University of Southampton, United Kingdom is
has simplified the creation process. While the Digital Library software packages such as EPrints
have made it easier to create and run Digital Libraries, optimization and customization still
needs to be done in order to achieve an optimally usable solution. One the most time
consuming tasks involved in setting up a Digital Library is populating these repositories. This can
be a very manual task that consumes a large amount of time without automation. One the
most time consuming tasks involved in setting up a the content or collections of Digital Library
is the data entry that provides detailed information on the available resources which is usually
made up of metadata elements that provide information on the content stored. The Digital
Library Content Metadata Generator (COMGEN) developed as a part of this project is designed
to reduce the workload, time consumption and error prone manual data entry that are being
done the traditional way in populating Digital Libraries. COMGEN is built to demonstrate the
feasibility of automatic content generation by extracting existing metadata from the source file
and transforming it into a usable format for use with the EPrints Import Tool to automatically
add new content and populate the Digital Library/Repository. (Abstract by author
- …