474,784 research outputs found
A Reference Architecture for Natural Language Generation Systems
We present the RAGS (Reference Architecture for Generation Systems) framework: a specification of an abstract Natural Language Generation (NLG) system architecture to support sharing, re-use, comparison and evaluation of NLG technologies. We argue that the evidence from a survey of actual NLG systems calls for a different emphasis in a reference proposal from that seen in similar initiatives in information extraction and multimedia interfaces.
We introduce the framework itself, in particular the two-level data model that allows us to support the complex data requirements of NLG systems in a flexible and coherent fashion, and describe our efforts to validate the framework through a range of implementations
Mixing representation levels: The hybrid approach to automatic text generation
Natural language generation systems (NLG) map non-linguistic representations
into strings of words through a number of steps using intermediate
representations of various levels of abstraction. Template based systems, by
contrast, tend to use only one representation level, i.e. fixed strings, which
are combined, possibly in a sophisticated way, to generate the final text.
In some circumstances, it may be profitable to combine NLG and template based
techniques. The issue of combining generation techniques can be seen in more
abstract terms as the issue of mixing levels of representation of different
degrees of linguistic abstraction. This paper aims at defining a reference
architecture for systems using mixed representations. We argue that mixed
representations can be used without abandoning a linguistically grounded
approach to language generation.Comment: 6 page
A reference architecture for flexibly integrating machine vision within manufacturing
A reference architecture provides an overall framework that may embrace models, methodologies and
mechanisms which can support the lifecycle of their target domain. The work described in this thesis
makes a contribution to establishing such a generally applicable reference architecture for supporting
the lifecycIe of a new generation of integrated machine vision systems.
Contemporary machine vision systems consist of a complex combination of mechanical engineering,
the hardware and software of an electronic processor, plus optical, sensory and lighting components.
"This thesis is concerned with the structure of the software which characterises the system application.
The machine vision systems which are currently used within manufacturing industry are difficult to
integrate within the information systems required within modem manufacturing enterprises. They are
inflexible in all but the execution of a range of similar operations, and their design and implementation
is often such that they are difficult to update in the face of the required change inherent within modem
manufacturing.
The proposed reference architecture provides an overall framework within which a number of supporting
models, design methodologies, and implementation mechanisms can combine to provide support
for the rapid creation and maintenance of highly structured machine vision applications. These applications
comprise modules which can be considered as building blocks of CIM systems. Their integrated
interoperation can be enabled by the emerging infrastructural tools which will be required to underpin
the next generation of flexibly integrated manufacturing systems.
The work described in this thesis concludes that the issues of machine vision applications and the
issues of integration of these applications within manufacturing systems are entirely separate. This separation
is reflected in the structure of the thesis. PART B details vision application issues while PAIIT C
deals with integration. The criteria for next generation integrated machine vision systems, derived in
PART A of the thesis, are extensive. In order to address these criteria and propose a complete architecture,
a "thin slice" is taken through the areas of vision application, and integration at the lifecycle
stages of design, implementation, runtime and maintenance.
The thesis describes the reference architecture, demonstrates its use though a proof of concept implementation
and evaluates the support offered by the architecture for easing the problems of software change
A Product Line Architecture for Evolving Intelligent Component Services in Tourism Information Systems
The challenge facing developers of Tourism Information Systems (TIS) is the need to evolve
more intelligent and dependable tourism support services. However, these kinds of information
systems have largely identical functionalities and delivers almost similar services. The systems
differ mostly in the customized information contents they deliver and the scope of the tourism
interest that is being promoted. The peculiarity of the e-Tourism domain makes it ideal for
product line development. In this paper, a reference Tourism Product Line Architecture (TPLA)
as a platform for evolving intelligent component services is proposed. The TPLA is a layered
architecture of core reusable components that can be leveraged for the development of a TIS
product family. The architecture is extensible and its components are formally specified as
possessing intrinsic intelligent attributes and the semantic awareness that are desirable for the
next generation of Tourism Information Systems
Reference architecture for robot teleoperation: development details and practical use
The need to avoid redundant efforts in software development has been recognized
for a long time. Currently, work is focused on the generation of products that are designed to be reused. A reference architecture for robot teleoperation systems has been developed using the domain-engineering process and certain architectural patterns. The architecture has
been applied successfully to the development of different teleoperation platforms used in the maintenance activities of nuclear power plants. In particular, this paper presents how the reference architecture has been implemented in different systems, such as the Remotely Operated Service Arm (ROSA), the Teleoperated and Robotized System for Maintenance Operation in Nuclear Power Plants Vessels (TRON) and the Inspection Retrieving Vehicle (IRV).This work has been partially supported by the
Spanish Government Programmes for Research in
Electrical Power (project PIE-041049), and for Technological Actuation in Industry (PAUTA projects 753/ 95 y 53/96). TRON is supported inside EUREKA– MAINE program (EU1565)
Adaptive Control with Reference Model Modification
This paper presents a modification of the conventional model reference adaptive control (MRAC) architecture in order to improve transient performance of the input and output signals of uncertain systems. A simple modification of the reference model is proposed by feeding back the tracking error signal. It is shown that the proposed approach guarantees tracking of the given reference command and the reference control signal (one that would be designed if the system were known) not only asymptotically but also in transient. Moreover, it prevents generation of high frequency oscillations, which are unavoidable in conventional MRAC systems for large adaptation rates. The provided design guideline makes it possible to track a reference commands of any magnitude from any initial position without re-tuning. The benefits of the method are demonstrated with a simulation exampl
An Ultra Low-Power Programmable Voltage Reference for Power-Constrained Electronic Systems
This paper proposes a novel architecture for the generation of a programmable voltage reference: the background-
calibrated (BC)-PVR. Our mixed-signal architecture periodically calibrates a static ultra low-power voltage reference generator, from an accurate bandgap reference. The portion of the chip used for the calibration can be powered down with a programmable duty-cycle. The system aims to fully exploit the small temperature derivative vs time DT of several application domains to minimize the average current consumption. The BC-PVR has been designed and implemented in TSMC 55-nm CMOS technology, and it achieves the largest reported programming reference output
◦range [0.42 - 2.52] V, over the temperature range [-20 , 85] C.
The duty-cycle mode allows nanoampere current consumption, and the large design flexibility permits to optimize the system performance for the specific application. These features make the BC-PVR very well-suited for power-constrained electronic systems
Navigation Facility for High Accuracy Offline Trajectory and Attitude Estimation in Airborne Applications
The paper focuses on a navigation facility, relying on commercial-off-the-shelf (COTS) technology, developed to generate high-accuracy attitude and trajectory measurements in postprocessing. Target performance is cm-level positioning with tenth of degree attitude accuracy. The facility is based on the concept of GPS-aided inertial navigation but comprises carrier-phase differential GPS (CDGPS) processing and attitude estimation based on multiantenna GPS configurations. Expected applications of the system include: (a) performance assessment of integrated navigation systems, developed for general aviation aircraft and medium size unmanned aircraft systems (UAS); (b) generation of reference measurements to evaluate the flight performance of airborne sensors (e.g., radar or laser); and (c) generation of reference trajectory and attitude for improving imaging quality of airborne remote sensing data. The paper describes system architecture, selected algorithms for data processing and integration, and theoretical performance evaluation. Experimental results are also presented confirming the effectiveness of the implemented approach
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