Topic
Dashboard
About: Dashboard is a research topic. Over the lifetime, 1933 publications have been published within this topic receiving 14928 citations. The topic is also known as: control panel (engineering) & dash.
Papers published on a yearly basis
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TL;DR: The Collective Variables Dashboard as mentioned in this paper is a software tool for real-time, seamless exploration of molecular structures and trajectories in a customizable space of collective variables, which is based on the integration of the collective variables Module (also known as Colvars) with the visualization software VMD.
Abstract: The Collective Variables Dashboard is a software tool for real-time, seamless exploration of molecular structures and trajectories in a customizable space of collective variables. The Dashboard arises from the integration of the Collective Variables Module (also known as Colvars) with the visualization software VMD, augmented with a fully discoverable graphical interface offering interactive workflows for the design and analysis of collective variables. Typical use cases include a priori design of collective variables for enhanced sampling and free energy simulations as well as analysis of any type of simulation or collection of structures in a collective variable space. A combination of those cases commonly occurs when preliminary simulations, biased or unbiased, reveal that an optimized set of collective variables is necessary to improve sampling in further simulations. Then the Dashboard provides an efficient way to intuitively explore the space of likely collective variables, validate them on existing data, and use the resulting collective variable definitions directly in further biased simulations using the Collective Variables Module. Visualization of biasing energies and forces is proposed to help analyze or plan biased simulations. We illustrate the use of the Dashboard on two applications: discovering coordinates to describe ligand unbinding from a protein binding site and designing volume-based variables to bias the hydration of a transmembrane pore.
4 citations
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12 Jun 1986
TL;DR: In this article, a cover, which is folded away, pushed away or otherwise removed when the car radio is used, is located in front of the opening for a car radio.
Abstract: In a dashboard, a cover, which is folded away, pushed away or otherwise removed when the car radio is used, is located in front of the opening for a car radio. By virtue of this cover it is not possible to discern from outside whether a radio is fitted. As a result the risk of theft is significantly reduced.
4 citations
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22 Oct 1999
TL;DR: In this paper, the dashboard strut is composed of a transverse beam and a support projecting from the beam, and a steering column is located under the beam so that the steering column passes under the support.
Abstract: The dashboard strut (1) comprises a transverse beam (2) and a support (7) which projects from the beam The support which supports a steering column is located under the beam so that the steering column passes under the beam
4 citations
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TL;DR: In this paper, the state-of-the-art in vehicle instrumentation is reviewed and the technical options now available to instrument manufacturers are described, with a focus on the need for multiple-use displays.
Abstract: The technology of vehicle instrumentation has become increasingly sophisticated. The application of electronics to dashboard instruments provides scope for the simultaneous display of a multiplicity of different kinds of information. But it is important that drivers are not overloaded with visual distractions. Information should ideally be displayed as and when required, but at the same location - hence the need for multiple–use displays. The state–of–the–art in vehicle instrumentation is reviewed and the technical options now available to instrument manufacturers are described.
4 citations
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TL;DR: This study indicates it is feasible to develop and implement a dashboard, tailored to the needs of an interdisciplinary team, which derives and integrates information from the EMR database for real‐time analysis and display of resource utilization and clinical workflow in radiation oncology.
Abstract: Abstract Purpose Radiotherapy treatment planning is a complex process with multiple, dependent steps involving an interdisciplinary patient care team. Effective communication and real‐time tracking of resources and care path activities are key for clinical efficiency and patient safety. Materials and Methods We designed and implemented a secure, interactive web‐based dashboard for patient care path, clinical workflow, and resource utilization management. The dashboard enables visualization of resource utilization and tracks progress in a patient's care path from the time of acquisition of the planning CT to the time of treatment in real‐time. It integrates with the departmental electronic medical records (EMR) system without the creation and maintenance of a separate database or duplication of work by clinical staff. Performance measures of workflow were calculated. Results The dashboard implements a standardized clinical workflow and dynamically consolidates real‐time information queried from multiple tables in the EMR database over the following views: (1) CT Sims summarizes patient appointment information on the CT simulator and patient load; (2) Linac Sims summarizes patient appointment times, setup history, and notes, and patient load; (3) Task Status lists the clinical tasks associated with a treatment plan, their due date, status and ownership, and patient appointment details; (4) Documents provides the status of all documents in the patients' charts; and (5) Diagnoses and Interventions summarizes prescription information, imaging instructions and whether the plan was approved for treatment. Real‐time assessment and quantification of progress and delays in a patient's treatment start were achieved. Conclusions This study indicates it is feasible to develop and implement a dashboard, tailored to the needs of an interdisciplinary team, which derives and integrates information from the EMR database for real‐time analysis and display of resource utilization and clinical workflow in radiation oncology. The framework developed facilitates informed, data‐driven decisions on clinical workflow management as we seek to optimize clinical efficiency and patient safety.
4 citations