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The Test and Training Enabling Architecture (TENA) Enabling Technology for the Joint Mission Environment Test Capability (JMETC) in Live, Virtual, and Constructive (LVC) EnvironmentsHudgins, Gene, Poch, Keith, Secondine, Juana 10 1900 (has links)
ITC/USA 2010 Conference Proceedings / The Forty-Sixth Annual International Telemetering Conference and Technical Exhibition / October 25-28, 2010 / Town and Country Resort & Convention Center, San Diego, California / The Joint Mission Environment Test Capability (JMETC) is a distributed live, virtual, and constructive (LVC) testing capability developed to support the acquisition community and to demonstrate Net-Ready Key Performance Parameters (KPP) requirements in a customer-specific Joint Mission Environment (JME). JMETC, using the Test and Training Enabling Architecture (TENA), provides connectivity to the Services' distributed test capabilities and simulations, and Industry test resources. TENA is well-designed for supporting JMETC events through its architecture and software capabilities which enable interoperability among range instrumentation systems, facilities, and simulations. TENA, used in major exercises and distributed test events, is also interfacing with other emerging range systems.
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The Test and Training Enabling Architecture (TENA) Enabling Technology for the Joint Mission Environment Test Capability (JMETC) in Live, Virtual, and Constructive (LVC) EnvironmentsHudgins, Gene, Poch, Keith, Secondine, Juana 10 1900 (has links)
ITC/USA 2009 Conference Proceedings / The Forty-Fifth Annual International Telemetering Conference and Technical Exhibition / October 26-29, 2009 / Riviera Hotel & Convention Center, Las Vegas, Nevada / The Joint Mission Environment Test Capability (JMETC) is a distributed live, virtual, and constructive (LVC) testing capability developed to support the acquisition community and to demonstrate Net-Ready Key Performance Parameters (KPP) requirements in a customer-specific Joint Mission Environment (JME). JMETC, using the Test and Training Enabling Architecture (TENA), provides connectivity to the Services' distributed test capabilities and simulations, and Industry test resources. TENA is well-designed for supporting JMETC events through its architecture and software capabilities which enable interoperability among range instrumentation systems, facilities, and simulations. TENA, used in major exercises and distributed test events, is also interfacing with other emerging range systems.
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DoD Ranges Interoperability and Resource Reuse Achievable Through the Test and Training Enabling Architecture, TENAHudgins, Gene 10 1900 (has links)
ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / To ensure range interoperability and range resource reuse are available and promoted across the DoD Test and Training range community, the Central Test and Evaluation Investment Program (CTEIP) has developed and continues to refine the Test and Training Enabling Architecture (TENA). TENA provides the architecture and software implementation to enable range interoperability, to foster range asset reuse, to provide composability, and to enable simulation‐based system engineering/acquisition. TENA has proven to be a critical enabler of major distributed live military exercises but has expanded to embrace other usage. Inclusive of new technologies, TENA developers are actively involved with the integrated Network Enhanced Telemetry (iNET), a CTEIP program which will provide wireless connectivity over which a variety of users will run applications and exchange data.
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The Test and Training Enabling Architecture, TENA, Enabling Technology for the Joint Mission Environment Test Capability (JMETC) and Other Emerging Range SystemsHudgins, Gene 10 1900 (has links)
ITC/USA 2008 Conference Proceedings / The Forty-Fourth Annual International Telemetering Conference and Technical Exhibition / October 27-30, 2008 / Town and Country Resort & Convention Center, San Diego, California / The Joint Mission Environment Test Capability (JMETC) is a distributed live, virtual, and constructive (LVC) testing capability developed to support the acquisition community and to demonstrate Net-Ready Key Performance Parameters (KPP) requirements in a customer-specific Joint Mission Environment (JME). JMETC, using the Test and Training Enabling Architecture, TENA, provides connectivity to the Services' distributed test capabilities and simulations, and industry test resources. TENA is well-designed for supporting JMETC events through its architecture and software capabilities which enable interoperability among range instrumentation systems, facilities, and simulations. TENA, used in major exercises and distributed test events, is also interfacing with other emerging range systems, such as iNET.
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THE CTEIP TEST AND TRAINING ENABLING ARCHITECTURE, TENA, AN IMPORTANT COMPONENT IN REALIZING DOD TEST AND TRAINING RANGE INTEROPERABILITYHudgins, B. Gene, Lucas, Jason 10 1900 (has links)
ITC/USA 2005 Conference Proceedings / The Forty-First Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2005 / Riviera Hotel & Convention Center, Las Vegas, Nevada / While military asset testing and training might be seen as complementary in supporting
military prepareness, they cannot complement each other without an effective and
efficient method of distributing data laterally across geographically separated data
gathering, analysis, and display systems. This cost-effective integration of range data
and telemetry resources is critical to ensuring the war worthiness of today’s advanced
weapon systems such as the Joint Strike Fighter and the sensor and weapon platforms
such as the highly sophisticated unmanned vehicles that are beginning to populate the
air, land, and sea areas of operations. To ensure the advantages of range
interoperability are available across the DoD Test and Training ranges, a Central Test
and Evaluation Program (CTEIP) project has developed and is refining the Test and
Training Enabling Architecture (TENA).
The core of TENA is the TENA Common Infrastructure, including the TENA
Middleware and TENA Repository. The TENA Middleware is the high-performance,
real-time, low-latency communication infrastructure used by range instrumentation
software and tools during execution of a range event. The TENA Object Model enables
semantic interoperability among range resource applications by encoding the
information to be communicated among those range applications. It may be seen as a
range community-wide set of interface and protocol definitions encapsulated in an
object-oriented design. The TENA tools, utilities, and gateways assist the user in
creating and managing an integration of range resources, as well as in optimizing the
TENA Common Infrastructure.
TENA has proven to be a critical enabler of distributed live exercises to include the U.S.
Joint Forces Command’s Millennium Challenge 2002, two major Joint National Training
Capability exercises in 2004, Cope Thunder 04-02, and Joint Roving Sands/Red Flag
2005. TENA, as integral part of range data systems, has become an important
component in the realization of range interoperability.
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Textila material av bananavfall : En undersökning om för- och nackdelar för bananavfall som textiltmaterial i modebranschen. / Textile material of banana waste : A review study in regards to the advantages and disadvantages for banana waste as textile material within the fashion industry.Hamp, Cajsa, Nilsson, Emelie January 2020 (has links)
Denna studie undersöker för- och nackdelar med textilier gjorda av bananavfall applicerat inom modebranschen. Studien granskas ur ett miljöperspektiv med ett fokus utifrån mål 12: Hållbarkonsumtion och produktion från de Globala målen. De Globala målen är en del avhandlingsplanen Agenda 2030 som är uppsatt av United Nation Development Program, där det eftersträvas att fram till och med år 2030 ha uppnått en mer hållbar värld. Vidare kommer bananfiberns egenskaper att granskas ur ett teoretiskt perspektiv för att se om detta är ett lämpligt val inom modebranschen. Studien ger också en inblick i hur modebranschen i Sverige förhåller sig till textilt material av bananavfall. Studien utgör en viktig del för att sprida kunskap om bananfiberns för- och nackdelar medmöjligheter att ge bättre förutsättningar till modeindustrin att kunna använda en hållbar fiber. Studiens resultat visar att det finns möjligheter för att detta ska kunna uppnås i framtiden sett ur ett hållbarhetsperspektiv, samt utifrån bananfiberns egenskaper. / This thesis examines the advantages and disadvantages regarding textiles made out of bananawaste within the fashion industry. An environmental perspective is applied based on goal 12:Responsible consumption and production from the Sustainable Development Goals (SDGs).SDGs is a part of the 2030 Agenda set by United Nation Development Programs, which aims tocreate a better world by 2030. Furthermore, the characteristics of the banana fiber and itsadequacy for the fashion industry will be theoretically examined. An aspect regarding thematerial from the fashion industries point of view will also be processed. Only swedishcompanies are included in the thesis.The thesis constitutes an important part for disseminate knowledge regarding the advantages anddisadvantages of the banana fiber. This with an expectation to provide better conditions withinthe fashion industry using a more sustainable fiber. Based on the results of the thesis, theopportunities to achieve this in the future are significant, due to the fact that both an sustainableperspective and the characteristics of the banana fiber shows a positive outcome. Furthermore,the thesis indicates a split result regarding the fashion companies point of view in the matter.
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