{"project":{"acronym":"","projectId":93389,"title":"Augmented Reality","primaryTaxonomyNodes":[{"taxonomyNodeId":10713,"taxonomyRootId":8816,"parentNodeId":10712,"level":3,"code":"TX06.6.1","title":"Human Factors Engineering","definition":"Human factors engineering focuses on ensuring that the system design is integrated and compatible with human tasks, and the sensory, perceptual, mental, and physical attributes of the user personnel who will operate, control, maintain, train, and support the equipment, system, or facility throughout its life cycle.","exampleTechnologies":"Frameworks for dynamic multi-agent function allocation, advanced user interfaces, tools to augment human physical and cognitive performance, integrated human-system verification and validation (V&V) methods, human physical and cognitive performance models, human-systems interfaces for increased autonomy and new environments, new con-ops models for crew-vehicle-ground interactions.","hasChildren":false,"hasInteriorContent":true}],"startTrl":2,"currentTrl":4,"endTrl":4,"benefits":"METECS sees opportunity to infuse this technology into existing and new projects within NASA. Model-based Simulations - The simulation and graphics branch of SRSD at Johnson Space Center develops a variety of analytical and human-in-the-loop model-based simulations for training, analysis and mission development purposes. Additionally, METECS sees benefit in applying the techniques used in our commercial simulation projects to NASA simulation projects and the development of the adaptive AR capability described in this SBIR would support that. Avionics Integration Facilities and mREST - METECS is involved in orchestration of several avionics integration facilities. One of our main contributions in that area is the orchestration infrastructure mREST. This software collects data from disparate test equipment and model-based simulations to enable data fusion and incorporation of data from multiple sources for integrated control and display. Because the underlying technology of the software is web-services based, this information is typically (but not always) displayed in a web-browser on fixed desktop computers or laptops. Logistics Management - METECS is a member of the RFID-Enabled Autonomous Logistics Management (REALM) team. We believe there are both short and long term opportunities for METECS to infuse this technology into our work in those areas.
An immediate application of this technology will be to support our ongoing VR and AR based initiatives in the construction and agricultural industries. We have already been incorporating augmented reality technologies into our commercial projects, however, we desire a better infrastructure for addressing the issues described in this proposal. Our aim will be to infuse this technology into our commercial efforts as soon as possible which we believe will result in a positive impact on our revenue growth.We believe that an infrastructure such as the one we propose will contribute to future development of new capabilities by: o Improving the quality of the AR experience through incorporation of adaptive AR capabilities o Reduce development time by decreasing time spent adjusting AR modalities and displays in ad-hoc ways to accommodate sometimes conflicting requirements o Promote reuse of common infrastructure code base across a wider variety of AR applications. Specific projects that will be early candidates for this technology will include: - Our Human-in-the-loop simulators for operation of agricultural and construction equipment - Augmented technology within virtual environment simulators - OEM development of AR applications for field operation of underground construction equipment","description":"Augmented Reality systems come with many benefits derived by co-locating information with a user's environment through the use of one or more output modalities such as visual, auditory and tactile. In the case of future human spaceflight programs involving deep space missions, the ground operations infrastructure currently utilized for support of LEO missions will be less accessible or unavailable. This will place far higher emphasis on the importance of automated and intelligent tools for tasking, advising, and monitoring autonomous crew activity. Augmented Reality systems will play a key role in achieving crew autonomy. With this fusion of real and virtual perception, however, comes challenges to ensure that the information is presented in a way that the user can effective consume it meet the goals of the situation. The proposed innovation is a configurable and extensible Augmented Reality Adaptable Information Manager (AR-AIM) that provides an infrastructure for integration of disparate sensor inputs, task definitions, consideration factors, prioritization algorithms, and output modalities to achieve adaptive augmented reality. Specifically, it will include a diverse combination of capabilities needed to make user interfaces that dynamically change to increase user precision and reduce stress on the user caused by the system. By being implemented as a reusable library, the AR-AIM controller suite can be leveraged across many systems, use cases, and domains. Features will include: - FOV Management - Occlusion Engine - Optimal Text Placement - Complexity Scaling - Multiple Modality Support - Data Interfaces - User Contextual Adaptations - Stress predictor - Multi-user Integration","startYear":2017,"startMonth":6,"endYear":2017,"endMonth":12,"statusDescription":"Completed","principalInvestigators":[{"contactId":219681,"canUserEdit":false,"firstName":"Jesse","lastName":"Berger","fullName":"Jesse Berger","fullNameInverted":"Berger, Jesse","primaryEmail":"Jesse.Berger@Metecs.Com","publicEmail":true,"nacontact":false}],"programDirectors":[{"contactId":206378,"canUserEdit":false,"firstName":"Jason","lastName":"Kessler","fullName":"Jason L Kessler","fullNameInverted":"Kessler, Jason L","middleInitial":"L","primaryEmail":"jason.l.kessler@nasa.gov","publicEmail":true,"nacontact":false}],"programExecutives":[{"contactId":215154,"canUserEdit":false,"firstName":"Jennifer","lastName":"Gustetic","fullName":"Jennifer L Gustetic","fullNameInverted":"Gustetic, Jennifer L","middleInitial":"L","primaryEmail":"jennifer.l.gustetic@nasa.gov","publicEmail":true,"nacontact":false}],"programManagers":[{"contactId":62051,"canUserEdit":false,"firstName":"Carlos","lastName":"Torrez","fullName":"Carlos Torrez","fullNameInverted":"Torrez, Carlos","primaryEmail":"carlos.torrez@nasa.gov","publicEmail":true,"nacontact":false}],"projectManagers":[{"contactId":3251051,"canUserEdit":false,"firstName":"Jeffrey","lastName":"Mulligan","fullName":"Jeffrey Mulligan","fullNameInverted":"Mulligan, Jeffrey","primaryEmail":"Jeffrey.B.Mulligan@nasa.gov","publicEmail":true,"nacontact":false},{"contactId":461333,"canUserEdit":false,"firstName":"Theresa","lastName":"Stanley","fullName":"Theresa M Stanley","fullNameInverted":"Stanley, Theresa M","middleInitial":"M","primaryEmail":"theresa.m.stanley@nasa.gov","publicEmail":true,"nacontact":false}],"website":"","libraryItems":[{"file":{"fileExtension":"pdf","fileId":299605,"fileName":"SBIR_2017_1_BC_H12.02-9281","fileSize":104238,"objectId":296143,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"101.8 KB"},"files":[{"fileExtension":"pdf","fileId":299605,"fileName":"SBIR_2017_1_BC_H12.02-9281","fileSize":104238,"objectId":296143,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"101.8 KB"}],"id":296143,"title":"Briefing Chart","description":"Augmented Reality, Phase I Briefing Chart","libraryItemTypeId":1222,"projectId":93389,"primary":false,"publishedDateString":"","contentType":{"lkuCodeId":1222,"code":"DOCUMENT","description":"Document","lkuCodeTypeId":341,"lkuCodeType":{"codeType":"LIBRARY_ITEM_TYPE","description":"Library Item Type"}}},{"caption":"Augmented Reality, Phase I Briefing Chart Image","file":{"fileExtension":"jpg","fileId":291863,"fileName":"SBIR_2017_1_BC_H12.02-9281","fileSize":87665,"objectId":288378,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"85.6 KB"},"files":[{"fileExtension":"jpg","fileId":291863,"fileName":"SBIR_2017_1_BC_H12.02-9281","fileSize":87665,"objectId":288378,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"85.6 KB"}],"id":288378,"title":"Briefing Chart Image","description":"Augmented Reality, Phase I Briefing Chart Image","libraryItemTypeId":1095,"projectId":93389,"primary":true,"publishedDateString":"","contentType":{"lkuCodeId":1095,"code":"IMAGE","description":"Image","lkuCodeTypeId":341,"lkuCodeType":{"codeType":"LIBRARY_ITEM_TYPE","description":"Library Item Type"}}}],"transitions":[],"primaryImage":{"file":{"fileExtension":"jpg","fileId":291863,"fileSizeString":"0 Byte"},"id":288378,"description":"Augmented Reality, Phase I Briefing Chart Image","projectId":93389,"publishedDateString":""},"responsibleMd":{"acronym":"STMD","canUserEdit":false,"city":"","external":false,"linkCount":0,"organizationId":4875,"organizationName":"Space Technology Mission Directorate","organizationType":"NASA_Mission_Directorate","naorganization":false,"organizationTypePretty":"NASA Mission Directorate"},"program":{"acronym":"SBIR/STTR","active":true,"description":"
The NASA SBIR and STTR programs fund the research, development, and demonstration of innovative technologies that fulfill NASA needs as described in the annual Solicitations and have significant potential for successful commercialization. If you are a small business concern (SBC) with 500 or fewer employees or a non-profit RI such as a university or a research laboratory with ties to an SBC, then NASA encourages you to learn more about the SBIR and STTR programs as a potential source of seed funding for the development of your innovations.
The SBIR and STTR programs have 3 phases:
The SBIR and STTR Phase I contracts last for 6 months with a maximum funding of $125,000, and Phase II contracts last for 24 months with a maximum funding of $750,000 - $1.5 million.
Opportunity for Continued Technology Development Post-Phase II:
The NASA SBIR/STTR Program currently has in place two initiatives for supporting its small business partners past the basic Phase I and Phase II elements of the program that emphasize opportunities for commercialization. Specifically, the NASA SBIR/STTR Program has the Phase II Enhancement (Phase II-E) and Phase II eXpanded (Phase II-X) contract options.
Please review the links below to obtain more information on the SBIR/STTR programs.
Provides an overview of the SBIR and STTR programs as implemented by NASA
Provides access to the annual SBIR/STTR Solicitations containing detailed information on the program eligibility requirements, proposal instructions and research topics and subtopics
Schedule and links for the SBIR/STTR solicitations and selection announcements
Federal and non-Federal sources of assistance for small business
Search our complete archive of awarded project abstracts to learn about what NASA has funded
Still have questions? Visit the program FAQs
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