Publication Notices

Notifications of New Publications Released by ERDC

Contact Us

      

  

    866.362.3732

   601.634.2355

 

ERDC Library Catalog

Not finding what you are looking for? Search the ERDC Library Catalog

Results:
Category: Technology
Clear
  • USACE BIM Object Library user guide: Release 1.0

    Abstract: The U.S. Army Corps of Engineers (USACE) is in need of a centralized repository of standardized Building Information Modeling (BIM) Objects. This repository is needed to serve as the BIM Object Library to be utilized by architects and engineers on architectural and engineering federal design projects. The U.S. has more than 109,000 registered architects and 820,000 licensed professional engineers that could potentially have access to this BIM Object Library. The CAD/BIM Technology Center has currently harvested more than 8,500 BIM Objects from USACE districts. It is expected that the USACE BIM Object Library will grow to more than 35,000 BIM Objects based on the existing content being managed by each individual USACE district. The CAD/BIM Technology Center’s research shows that the content management system solution needs to provide BIM objects that contain all the information required to design, find, locate, specify, interrogate, and analyze the represented product. The study also shows the solution should provide an intuitive interface which allows users to easily retrieve the BIM objects that meet a set of user defined criteria. Furthermore, the solution should verify the BIM Objects selected for inclusion into the USACE BIM Object Library comply with the advanced modeling object standard. Finally, the study shows that the solution should be capable of efficiently and effectively managing and querying at least 5 million parameters and associated values.
  • Electronic Railroad Inspection Database System for Military Facilities

    Abstract: The U.S. Army Engineer Research and Development Center (ERDC) executes inspection programs as part of the U.S. Army Transportation Infrastructure Inspection Program (ATIIP). These inspections, monitoring, and assessment programs include airfields, bridges, dams, railroads, waterfront facilities, and ranges. To date, the process for these inspection programs has been manually intensive, time consuming, and difficult to scale. The ERDC is bringing digital business and spatial data collection methods to its inspection program for the military’s railroad infrastructure. By combining GPS and GIS technologies into a mobile data collection solution, added efficiency and data quality have been brought to the field inspection workflow. This modernization effort also results in streamlined data processing and reporting. These improved processes will lead to higher quality data, better analysis of the new richer data content, and better decisions made by the end-users and stakeholders.
  • Autonomous Vehicle Pilot at Joint Base Myer-Henderson Hall: Project Report Summary and Recommendations

    Abstract: Military installations serve as strategic staging areas that are integral to national security. The Army is currently reconsidering how it views its installations as part of the battle space under multi-domain operations, which includes technology modernization efforts, such as the rapidly expanding field of connected and autonomous vehicle (CAV) technology. The DoD community and military installations have an interest in investigating autonomous transportation systems to determine their potential role in a broad range of military applications. CAVs capture, store, and analyze tremendous amounts of data. Military installations need to understand the data systems and processes involved in CAV deployments. To that end, the Army is conducting pilot projects that deploy updated and commercially-available CAVs on installations and within adjacent com-munities to further demonstrate their use and conduct research and development to optimize and inform the integration of this emerging technology. This report documents the deployment of Autonomous Vehicle (AV) technologies at Joint Base Myer-Henderson Hall for a 90-day pilot study to evaluate a commercially-available AV.
  • Integrated Rule-Oriented Data System (iRODS) and High Performance Computing (HPC) Architecture Design

    Abstract: The Integrated Rule-Oriented Data System (iRODS) proof-of-concept will be deployed within the existing U.S. Army Engineer Research and Development Center (ERDC) Department of Defense Supercomputing Resource Center (DSRC) to test additional capabilities and features for high performance computing (HPC) users. iRODS is a data-grid middleware that virtualizes access to data, regardless of which physical storage device the data resides within. Users, and HPC jobs on behalf of users, can leverage the various application programming interfaces (APIs) within iRODS to search and retrieve data using metadata and a unified data namespace. In addition to facilitating data discovery and retrieval, iRODS has a robust security system to implement fine-grained access control and auditing rules.
  • Integrated Rule-Oriented Data System (iRODS) and High Performance Computing (HPC) Project Management Plan

    Abstract: This project management plan (PMP) is established to provide guidance on the management of the Integrated Rule-Oriented Data System (iRODS) Project. The PMP and its associated plans are the primary source of information for how the project will be planned, executed, monitored, controlled, and closed. The intended audience of the plan is all project stakeholders including the project manager (PM), Engineered Resilient Systems (ERS), High-Performance Computing (HPC), and the Geocent project team members.
  • Integrated Rule-Oriented Data System (iRODS) and High Performance Computing (HPC) Requirements Document

    Abstract: The purpose of this report is to capture all relevant use cases, functional requirements, and technical requirements of the Integrated Rule-Oriented Data System (iRODS) prototype. The use cases (UCs) define the system interactions an iRODS user, iRODS administrator, and an auditor would expect within the system. The functional requirements define the expected behavior of the system to support the individual use cases; functional requirements are grouped in reference to the use cases supported by the set of functional requirements. The technical requirements are defined last and include references to specific functional requirements and use cases supported by the requirement.
  • Web-Enabled Interface for iRODS: Comparing Hydroshare and Metalnx

    Abstract: The Integrated Rule-Oriented Data System (iRODS) software provides ample resources for managing data and collections thereof, but there are occasions where utilizing its command line interface (CLI) is impractical or not desirable. One such example is when it is required that the user authenticate using a common access card (CAC), which is more easily accomplished through a graphical user interface (GUI) than through a CLI. Furthermore, restricting the system to only offering a CLI can alienate users who would normally be averse to using a system in such a way, and there are users who are not averse to utilizing a CLI, but who would still benefit from a GUI until they are able to familiarize themselves with the iCommands provided by iRODS. Thus, it becomes imperative to either implement or utilize an existing GUI for the system.
  • Analysis of ERS use cases for iRODs

    Abstract: The purpose of this paper is to discuss the challenges inherent with High Performance Computing (HPC) data storage access and management, the capabilities of iRODS, and the analysis of several Engineered Resilient Systems (ERS) use cases relating iRODS capabilities to the teams’ stated needs. Specifically, these teams are the ERS Data Analytics group (specifically their research on rotorcraft maintenance in conjunction with the U. S. Army Aviation and Missile Research Development and Engineering Center [AMRDEC]), the ERS Environmental Simulation research team, the ERS Sensor Systems research team, and the HPC/Scientific computing group representing the “General HPC User.”
  • PUBLICATION NOTICE: Evaluating Parametric Probability Density Functions for Urban Acoustic Noise

    Abstract: This paper evaluates the suitability of three parametric probability density functions for characterizing urban acoustic noise. For that purpose, the sound levels in one-third-octave bands (6.3 Hz-20 kHz) were measured every 0.5 seconds for 5 minutes (for a total of 600 measurements) at 38 locations in Boston, USA. The probability density functions for this dataset were approximated using histograms and the log-normal, generalized gamma, and compound gamma distributions. Maximizing the log-likelihood for each distribution yielded their parameters. The suitability of each distribution was evaluated using the Kullback-Leibler divergence with the histogram approximation as the reference. Overall, the compound gamma distribution was the most accurate followed by the log-normal and then the generalized gamma distributions. Nonetheless, the simplicity of the two-parameter log-normal distribution might be preferred over the three-parameter compound the distributions of its parameters across all locations and frequencies were also approximated parametrically, which provided satisfactory agreement.
  • PUBLICATION NOTICE: Sensor and Environment Physics in the Virtual Autonomous Navigation Environment (VANE)

    Abstract: This report documents the physics models that are implemented in the Virtual Autonomous Navigation Environment (VANE), a sensor simulator that uses physics-based ray tracing to simulate common robotic sensors such as cameras, LiDAR, GPS, and automotive RADAR. The report will provide information about the underlying assumptions and implementation details regarding the physics models used in VANE simulations. These include surface reflectance and texture models, atmospheric models, weather effects, and sensor properties. The purpose of this report is to provide information for VANE users, developers, and analysts who would like to use the VANE for sensor simulations.