№ lp_1_2_06058
File format: docx
Character count: 243823
File size: 1375 KB
This document outlines the requirements, tasks, and deliverables for the development and implementation of a Real-Time Location System (RTLS) for the Department of Veterans Affairs, including specifications for system architecture, software, hardware, and support services.
Year:
2012
Region / City:
United States
Topic:
Real-Time Location Systems (RTLS) for VA
Document Type:
Performance Work Statement
Agency:
Department of Veterans Affairs
Author:
Not specified
Target Audience:
Veterans Health Administration, VA personnel, contractors, and technology vendors
Period of Effect:
Not specified
Approval Date:
February 24, 2012
Modification Date:
Not specified
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Confidentiality Level:
BL - Restricted for internal use
TC ID / Revision:
00153898/C
Document Status:
Document Released
Document No.:
N/A
WBS code:
5.2 - RP3 Particle acceleration by lasers
PBS code:
E.E4.ELMA.4.5.4
Project branch:
Engineering & Scientific documents (E&S)
Document Type:
Specification (SP)
Position:
Senior researcher
Prepared by:
Senior researcher Valentina Scuderi
Reviewed By:
Daniele Margarone, Ladislav Půst, Pavel Bastl, Roman Kuřátko, Tomáš Laštovička, Veronika Olšovcová, Viktor Fedosov
Approved by:
Georg Korn
Revision History / Change Log:
D. Margarone, V. Scuderi, A. Kuzmenko
Date of Creation:
26.07.2017
Date of Last Modification:
22.08.2017
Change Description:
RSD draft creation, RSD update, formal update for approval
Introduction:
The Requirements Specification Document (RSD) details technical requirements and constraints for the Real-time Digital Oscilloscope to be purchased for the ELI Beamlines project.
Purpose:
The document defines the functional, performance, safety, and quality requirements for the Oscilloscope.
Scope:
The Oscilloscope specifications include performance standards, interface needs, power supply compatibility, safety, and delivery requirements.
Terms, Definitions and Abbreviations:
AC, BW, CA, Ch, CPU, DC, ELI, GND, pts, RMS, RSD, USB, WXGA
References to standards:
This document permits alternatives to specified standards if they are equivalently proven by the supplier.
Functional, Performance and Design requirements:
Includes minimum specifications for bandwidth, vertical resolution, sample rate, memory, sensitivity, and accuracy of the Oscilloscope.
Interface requirements:
Specifies connectivity options such as Ethernet and USB, and software compatibility with Windows 7.
Power supply:
The Oscilloscope is compatible with a wide range of AC input voltages and has specified power consumption limits.
Delivery requirements:
Delivery of the Oscilloscope must be managed by the Supplier to the ELI Beamlines final destination.
Safety Requirements:
Supplier must provide a Declaration of Conformity or equivalent documentation for compliance with EU regulations.
Quality Requirements:
The Supplier must provide user manuals, calibration certificates, and proof of outgoing checks, as well as ensure non-conformance control and warranty repair procedures.
Note:
Year
Countries & Regions:
Asia Pacific, Southern and Eastern Africa, West and Central Africa, Eastern Mediterranean and Middle East and North Africa, Afghanistan, Bangladesh, Burkina Faso, Burundi, Cameroon, Ethiopia, Fiji, Indonesia, Lao PDR, Libya, Myanmar, Nepal, occupied Palestinian territory (oPt), Pakistan, Papua New Guinea, Philippines, Somalia, South Sudan, Sri Lanka, Sudan, Syria (cross-border operation from Gaziantep), Vanuatu, Yemen
Year:
2019
Region / City:
USA, Virginia
Topic:
Real-time video in medical imaging
Document Type:
Technical standard
Organization / Institution:
DICOM Standards Committee, NEMA
Author:
DICOM Standards Committee
Target Audience:
Medical professionals, healthcare technology developers
Effective Period:
Not specified
Approval Date:
September 16, 2019
Amendment Date:
Not specified
Organization:
DICOM Standards Committee
Working Group:
Working Group 13
Standard series:
NEMA Standards Publication PS 3
Supplement number:
202
Title:
Real-Time Video
Version:
Draft Letter Ballot
Date:
May 23–24, 2019
Status:
Draft document
Work item:
DICOM Workitem 2016-12-D
Location:
Rosslyn, Virginia, USA
Copyright holder:
NEMA
Copyright year:
2018
Scope:
Real-time transport, metadata, and representation of video and audio in DICOM
Related standards:
SMPTE ST 2110 series
Document type:
Technical standard supplement
Target domain:
Medical imaging and real-time clinical video
Informative and normative content:
Mixed
Year:
2022
Region / city:
Geneva
Topic:
Quality of Experience (QoE), 5G Networks, Multimedia Services
Document type:
Technical Report
Organization:
ITU-T
Author:
ITU-T Study Group 12
Target audience:
Telecommunications professionals, researchers, and engineers
Effective period:
2022
Approval date:
17 June 2022
Modification date:
N/A
Note:
Year
Subject:
Digital Signal Processing
Document type:
Assignment
Target audience:
Students in Digital Signal Processing course
Context description:
Computer assignment focusing on real-time audio processing using C/C++ in a Linux or Mac environment, including tasks involving audio recording, buffering, and playback.
Year:
2025
Note:
Region / city
Subject:
Real-Time System Design, Operating Systems, Hardware Considerations
Document Type:
Exam materials
Target audience:
Students, professionals in real-time systems
Contextual description:
Educational source providing detailed study materials on real-time systems, hardware, and operating system concepts for exam preparation.
Year:
2023
Region / city:
Cagliari, Italy
Topic:
Non-Intrusive Load Monitoring, Smart Metering, Energy Consumption
Document type:
Research Paper
Organization:
University of Cagliari, Bithiatech Technologies
Authors:
B. Cannas, S. Carcangiu, D. Carta, A. Fanni, C. Muscas, G. Sias, B. Canetto, L. Fresi, P. Porcu
Target audience:
Researchers, Engineers, Energy Specialists
Period of validity:
Not specified
Approval date:
Not specified
Date of changes:
Not specified
Note:
Description
Authors:
Kasra Rouhi; Hamid Rajabalipanah; Ali Abdolali
Affiliations:
School of Electrical Engineering, Iran University of Science and Technology, Tehran, Iran; Applied Electromagnetic Laboratory, School of Electrical Engineering, Iran University of Science and Technology, Tehran, Iran
Corresponding author:
Ali Abdolali
Email:
[email protected]
Institution:
Iran University of Science and Technology
Laboratory:
Applied Electromagnetic Laboratory
Subject area:
Graphene-based metasurfaces; Terahertz wave-front shaping; Orbital angular momentum beams
Document type:
Supplementary information
Components:
External biasing circuit; EM coupling analysis; Circuit model of binary meta-atoms; IFFT-based far-field analysis; Phase gradient MGBM examples; Focused OAM beam generation; Reflection phase maps and chemical potential distributions; Effects of biasing lines
Materials:
Graphene; Al2O3; polysilicon; Au/Cr contacts
Frequency range:
Terahertz (THz)
Device type:
Multi-bit graphene-based bias-encoded metasurface (MGBM)
Control method:
DC gate voltages (Vg1, Vg2); FPGA-based programming
Physical mechanisms:
Fowler–Nordheim tunneling; Field effect in graphene; Electron scattering and relaxation mechanisms
Year:
2023
Region / City:
NJ
Subject:
Data Engineering, Cloud Platforms, Real-time Data Pipelines
Document Type:
Resume
Organization / Institution:
Citi Bank
Author:
Deepthi P
Target Audience:
Hiring Managers, Data Engineering Teams, Technical Recruiters
Effective Period:
Current
Approval Date:
Aug 2023
Modification Date:
N/A
Year:
2026
Region / city:
Goa, India
Topic:
Real-time communication, Media transport protocol
Document type:
Technical Report
Organization:
3GPP
Author:
InterDigital Pennsylvania
Target audience:
3GPP Technical Specification Group members, network engineers, protocol developers
Period of validity:
2026
Approval date:
February 2026
Date of amendments:
Not specified
Note:
Year
Author:
HM Coastguard United Kingdom, Ministry of Infrastructure and Water Management The Netherlands
Year:
Not specified
Region / City:
Basel, Switzerland
Field:
Parasitology
Document Type:
Supplementary scientific protocol and validation data
Institution:
Swiss Tropical and Public Health Institute (SwissTPH)
Department:
National Reference Centre for Parasitology
Methodology:
Real-time PCR using TaqMan probe assays
Assay Format:
Six duplex real-time PCR reactions and one simplex reaction
Target Organisms:
Entamoeba dispar, Entamoeba histolytica, Cryptosporidium spp., Cryptosporidium hominis/parvum, Microsporidia (Encephalitozoon spp., Enterocytozoon bieneusi), Entamoeba moshkovskii, Entamoeba polecki, Dientamoeba fragilis, Giardia lamblia, Cyclospora cayetanensis, Cystoisospora belli, Blastocystis sp.
Gene Target:
18S rRNA gene
Sample Type:
Human stool samples
Validation Material:
Plasmids with sequence inserts and clinical samples
Analytical Sensitivity:
1–10 plasmids/µl depending on assay
Diagnostic Sensitivity:
Reported up to 100% for validated assays
Specificity:
100% for tested organisms during validation
Laboratory Method:
Quantitative real-time polymerase chain reaction (qPCR)
Thermocycling Profile:
50 °C for 2 min, 95 °C for 10 min, followed by 40 cycles of 95 °C for 15 s and 58 °C for 1 min
DNA Extraction Material:
Approximately 1 g stool aliquots stored at −80 °C prior to molecular analysis
Reagents:
GeneExpression Mastermix (Thermo Fisher Scientific), primers and TaqMan probes
Year:
2023
Region / City:
Global
Topic:
Weather Forecasting, Machine Learning
Document Type:
Research Paper
Organization / Institution:
Not specified
Author:
Not specified
Target Audience:
Researchers, Meteorologists, Machine Learning Practitioners
Period of Validity:
Not specified
Approval Date:
Not specified
Date of Changes:
Not specified
Keywords:
Weather forecasting, Regression Techniques, Prediction, MSE
Context:
The document presents a research study on applying machine learning regression techniques for real-time weather forecasting and prediction.
Year:
2023
Region / Institution:
Hunan University of Science and Technology, Xiangtan, China
Subject:
Analytical Chemistry, Spectroscopy
Document Type:
Research Supporting Information
Laboratory:
Hunan Province Key Laboratory of Intelligent Sensors and Advanced Sensor Materials
Authors:
Yun Tang, Enxin Guo, Zeen Yang, Sheng Wang, Jiale Liao
Target Audience:
Researchers and scientists in spectroscopy and sensor development
Comparison Techniques:
AAS, ICP-OES, ICP-MS, XRF
Data Type:
Table, Figure, References
Application Context:
Real-time multi-element monitoring
Year:
2019
Region / City:
United States
Topic:
Veterans Affairs, Health Technology Integration
Document Type:
Performance Work Statement
Organization:
Department of Veterans Affairs, Office of Information & Technology
Author:
Department of Veterans Affairs
Target Audience:
Contractors, IT professionals, Health Technology developers
Period of Validity:
Ongoing, until completion of task orders
Approval Date:
June 20, 2019
Date of Changes:
N/A
Year:
2019
Region / City:
United States
Subject:
Cybersecurity
Document Type:
Performance Work Statement
Author:
Department of Veterans Affairs
Target Audience:
Contractors, cybersecurity professionals
Period of validity:
Not specified
Approval Date:
June 28, 2019
Date of amendments:
Not specified
Year:
2019
Region / City:
United States
Topic:
Information Technology, Veterans Affairs, Healthcare
Document Type:
Performance Work Statement
Agency / Institution:
Department of Veterans Affairs, Office of Information & Technology
Author:
Not specified
Target Audience:
Contractors, VA staff, IT professionals
Period of Effectiveness:
June 27, 2019, onwards
Approval Date:
June 27, 2019
Amendments Date:
Not specified
Year:
2012
Region / City:
Guam
Topic:
Communication Services
Document Type:
Performance Work Statement
Agency / Institution:
Department of Veterans Affairs (VA)
Author:
Department of Veterans Affairs (VA)
Target Audience:
Contractors, Service Providers, VA Staff
Period of Validity:
Ongoing
Approval Date:
10/1/2012
Amendment Date:
None
Year:
2025
Region / City:
United States
Theme:
Traveler Processing, Border Security, Technology Modernization
Document Type:
Performance Work Statement (PWS)
Organization / Institution:
U.S. Customs and Border Protection (CBP), Office of Information and Technology (OIT)
Author:
N/A
Target Audience:
CBP personnel, government contractors, technology providers
Period of Effectiveness:
2025-2026
Approval Date:
N/A
Amendment Date:
N/A