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1. Mining Biomedical Publications With The LAPPS Grid

   Nancy Ide, Keith Suderman (January 2018, Proceedings of the Eleventh International Conference on Language Resources and Evaluation)

   It is widely recognized that the ability to exploit Natural Language Processing (NLP) text mining strategies has the potential to increase productivity and innovation in the sciences by orders of magnitude, by enabling scientists to pull information from research articles in scientific disciplines such as genomics and biomedicine. The Language Applications (LAPPS) Grid is an infrastructure for rapid development of natural language processing applications (NLP) that provides an ideal platform to support mining scientific literature. Its Galaxy interface and the interoperability among tools together provide an intuitive and easy-to-use platform, and users can experiment with and exploit NLP tools and resources without the need to determine which are suited to a particular task, and without the need for significant computer expertise. The LAPPS Grid has collaborated with the developers of PubAnnotation to integrate the services and resources provided by each in order to greatly enhance the user’s ability to annotate scientific publications and share the results. This poster/demo shows how the LAPPS Grid can facilitate mining scientific publications, including identification and extraction of relevant entities, relations, and events; iterative manual correction and evaluation of automatically-produced annotations, and customization of supporting resources to accommodate specific domains. 

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2. AskMe: A LAPPS Grid-based NLP Query and Retrieval System for Covid-19 Literature

   https://doi.org/10.18653/v1/2020.nlpcovid19-2.28  

   Suderman, Keith; Ide, Nancy; Marc, Verhagen; Cochran, Brent; Pustejovsky, James (January 2020, Proceedings of the 1st Workshop on NLP for COVID-19 (Part 2) at EMNLP 2020)

   Karin Verspoor, Kevin Bretonnel (Ed.)

   In a recent project, the Language Applications Grid was augmented to support the mining of scientific publications. The results of that effort have now been repurposed to focus on Covid-19 literature, including modification of the LAPPS Grid “AskMe” query and retrieval engine. We describe the AskMe system and discuss its functionality as compared to other query engines available to search covid-related publications. 

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3. The LAPPS Grid/Galaxy Platform for Mining Scientific Publications

   Nancy Ide​, Keith Suderman (July 2019, Galaxy Community Conference 2019)

   It is widely recognized that the ability to exploit Natural Language Processing (NLP) text mining strategies has the potential to increase productivity and innovation in the sciences by orders of magnitude, by enabling scientists to pull information from research articles in scientific disciplines such as genomics and biomedicine. These methods enable scientists to rapidly identify publications relevant to their own research as well as make scientific discoveries by scouring hundreds of research papers for associations and connections (such as between drugs and side effects, or genes and disease pathways) that humans reading each paper individually might not notice. The goal of our work is to enable rapid development of workflows for mining scientific publications and, crucially, means to adapt tools and workflows to data for specific disciplines (domain adaptation). Our work on this project is still ongoing; however, as a starting point we initially addressed the needs for mining biomedical publications, and a Galaxy instance of the LAPPS Grid tailored to mining biomedical publications is currently maintained on the JetStream cloud environment (https://jetstream.lappsgrid.org). 

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4. Erebus: Access Control for Augmented Reality Systems., USENIX Security, 2023. Published.

   Kim, Y.; Goutam, S.; Rahmati, A.; Kaufman, A. (January 2023, USENIX Security)

   Augmented Reality (AR) is widely considered the next evolution in personal devices, enabling seamless integration of the digital world into our reality. Such integration, however, often requires unfettered access to sensor data, causing significant over privilege for applications that run on these platforms. Through analysis of 17 AR systems and 45 popular AR applications, we explore existing mechanisms for access control in AR platforms, identify key trends in how AR applications use sensor data, and pinpoint unique threats users face in AR environments. Using these findings, we design and implement Erebus, an access control framework for AR platforms that enables fine-grained control over data used by AR applications. Erebus achieves the principle of least privileged through the creation of a domain-specific language (DSL) for permission control in AR platforms, allowing applications to specify data needed for their functionality. Using this DSL, Erebus further enables users to customize app permissions to apply under specific user conditions. We implement Erebus on Google’s ARCore SDK and port five existing AR applications to demonstrate the capability of Erebus to secure various classes of apps. Performance results using these applications and various microbenchmarks show that Erebus achieves its security goals while being practical, introducing negligible performance overhead to the AR system. 

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5. Rethinking Home Networks in the Ultrabroadband Era

   https://doi.org/10.1109/ICDCS.2019.00185  

   Rabinovich, Michael; Allman, Mark; Brennan, Stephen; Pollack, Brian; Xu, Junbo (July 2019, IEEE 39th International Conference on Distributed Computing Systems (ICDCS))

   The advent of ultrabroadband Internet connectivity brings a 2-3 orders of magnitude jump in the capacity of access networks (a.k.a. the “last mile”). Beyond mere capacity increase, this leap represents a qualitative shift in the overall Internet environment. Therefore, we argue that only by seizing the opportunity to re-think the way we structure network applications and services can we realize the full potential ultrabroadband provides. Specifically, with ultrabroadband residential networks, we have the opportunity to re-center our digital lives around our residence, similar to how our physical lives generally center around our homes. To this end, we introduce a new appliance in home networks–a “home point of presence”–that provides a variety of services to the users in the house regardless of where they are physically located and connected to the network. We illustrate the utility of this appliance by discussing a range of new services that both bring new functionality to the users and improve performance of existing applications. 

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