{"project":{"acronym":"iSHORT","projectId":88671,"title":"Vehicle Net Habitable Volume (NHV) and Habitability Assessment","primaryTaxonomyNodes":[{"taxonomyNodeId":10715,"taxonomyRootId":8816,"parentNodeId":10712,"level":3,"code":"TX06.6.3","title":"Habitability and Environment","definition":"Habitability and environment focus on external and internal environment considerations for human habitat, and exposure to the natural environment, including factors of living and working conditions necessary to sustain the safety, health, performance, and morale of the user population which directly affect personnel effectiveness and mission success.","exampleTechnologies":"Robust countermeasures to mitigate environmental impacts on human performance and capability to perform, integrated habitat support system, long-duration microgravity workstation and habitat tools","hasChildren":false,"hasInteriorContent":true}],"startTrl":4,"currentTrl":7,"endTrl":7,"benefits":"Innovative technology developed includes the Space Habitability Observation Reporting Tool (iSHORT). iSHORT is an iPad-based application that allows crewmembers to document near real-time observations about their surroundings using text, photographs, video, and audio recordings. iSHORT was reviewed by the Johnson Space Center (JSC) New Technology Evaluation Board, which recommended it for publication in a future edition of the NASA Tech Briefs magazine.
","description":"NOTE: Continuation of \"Vehicle NHV and Habitability Assessment\" with Principal Investigator (PI) Dr. Sherry Thaxton due to Dr. Thaxton's move to Human Factors & Behavioral Performance Deputy Element Scientist, as of 2/5/2017. The purpose of this study is to assess habitability on the International Space Station (ISS) in order to better prepare for long-duration spaceflight missions of the future. The project deliverables will include information to help prioritize and reduce research gaps, operational inputs to the Human Performance Data Repository, and data for modeling and simulation tool development and validation to use for future designs.The knowledge gained through this project will provide valuable insight into a day-in-the-life of an astronaut as well as providing initial steps to characterize/quantify how we work and live in a microgravity environment during a year-long mission. Thus, it will help address specific research needs identified as part of the Human Research Program's (HRP’s) 2012 Habitable Volume Workshop and Standing Review Panel comments, and result in recommendations for future vehicle design layout and minimum net habitable volume (NHV). In addition, another potential outcome of the project will be enhancing the current ISS human factors crew debrief processes, resulting in higher quality data with minimal impact on crew time. This study is led by the Human Factors and Behavioral Performance (HFPB) element. Specific Aims: Specific Aim 1: Characterize the current state of ISS habitability using tools to capture data near real-time. o Aim 1a: Document/quantify details about crew task performance in a long-duration microgravity environment, including influences from the habitable environment and relationship impacts to the behavioral state of crewmembers. o Aim 1b: Determine whether mission duration leads to changes in habitability/human factors reporting by crewmembers. o Aim 1c: Assess the cost versus benefit of implementing near real-time tools compared to traditional post-mission debriefs. Specific Aim 2: Document/characterize details about how crewmembers currently utilize the space on ISS. o Aim 2a: Quantify time spent by crewmembers at workstations/habitation areas. o Aim 2b: Collect naturalistic data to document movement of crewmembers throughout ISS (e.g., frequency of translations between locations). o Aim 2c: Collect evidence to use toward validating estimates of required volume for performance of volume-driving tasks. o Aim 2d: Capture changes in strategies for crew tasks such as translation, stowage handling, etc. throughout the course of the mission. ","destinations":[{"lkuCodeId":1518,"code":"MARS","description":"Mars","lkuCodeTypeId":526,"lkuCodeType":{"codeType":"DESTINATION_TYPE","description":"Destination Type"}}],"startYear":2017,"startMonth":2,"endYear":2018,"endMonth":9,"statusDescription":"Completed","principalInvestigators":[{"contactId":325608,"canUserEdit":false,"firstName":"Maya","lastName":"Greene","fullName":"Maya R Greene","fullNameInverted":"Greene, Maya R","middleInitial":"R","primaryEmail":"maya.r.greene@nasa.gov","publicEmail":true,"nacontact":false}],"programDirectors":[{"contactId":103847,"canUserEdit":false,"firstName":"David","lastName":"Baumann","fullName":"David K Baumann","fullNameInverted":"Baumann, David K","middleInitial":"K","primaryEmail":"david.k.baumann@nasa.gov","publicEmail":true,"nacontact":false}],"programExecutives":[{"contactId":56,"canUserEdit":false,"firstName":"Stephen","lastName":"Davison","fullName":"Stephen C Davison","fullNameInverted":"Davison, Stephen C","middleInitial":"C","primaryEmail":"stephen.c.davison@nasa.gov","publicEmail":true,"nacontact":false}],"projectManagers":[{"contactId":466812,"canUserEdit":false,"firstName":"Thomas","lastName":"Williams","fullName":"Thomas J Williams","fullNameInverted":"Williams, Thomas J","middleInitial":"J","primaryEmail":"thomas.j.williams-1@nasa.gov","publicEmail":true,"nacontact":false}],"coInvestigators":[{"contactId":410584,"canUserEdit":false,"firstName":"Ronald","lastName":"Archer","fullName":"Ronald D Archer","fullNameInverted":"Archer, Ronald D","middleInitial":"D","primaryEmail":"ronald.d.archer@nasa.gov","publicEmail":true,"nacontact":false},{"contactId":262213,"canUserEdit":false,"firstName":"Katherine","lastName":"Vasser","fullName":"Katherine R Vasser","fullNameInverted":"Vasser, Katherine R","middleInitial":"R","primaryEmail":"katherine.vasser@nasa.gov","publicEmail":true,"nacontact":false},{"contactId":452720,"canUserEdit":false,"firstName":"Susan","lastName":"Schuh","fullName":"Susan V Schuh","fullNameInverted":"Schuh, Susan V","middleInitial":"V","primaryEmail":"susan.v.schuh@nasa.gov","publicEmail":true,"nacontact":false},{"contactId":11339,"canUserEdit":false,"firstName":"Alexandra","lastName":"Whitmire","fullName":"Alexandra M Whitmire","fullNameInverted":"Whitmire, Alexandra M","middleInitial":"M","primaryEmail":"alexandra.m.whitmire@nasa.gov","publicEmail":true,"nacontact":false}],"website":"https://taskbook.nasaprs.com","libraryItems":[{"file":{"fileExtension":"pdf","fileId":314346,"fileName":"HEOMD HRP Success Story iShort Final 2016-06-02","fileSize":44607,"objectId":308008,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"43.6 KB"},"files":[{"fileExtension":"pdf","fileId":314346,"fileName":"HEOMD HRP Success Story iShort Final 2016-06-02","fileSize":44607,"objectId":308008,"objectType":{"lkuCodeId":889,"code":"LIBRARY_ITEMS","description":"Library Items","lkuCodeTypeId":182,"lkuCodeType":{"codeType":"OBJECT_TYPE","description":"Object Type"}},"objectTypeId":889,"fileSizeString":"43.6 KB"}],"id":308008,"title":"HEOMD HRP Success Story iShort ","libraryItemTypeId":1222,"projectId":88671,"primary":false,"publishedBy":"HRP","publishedDateString":"Dec 2016","contentType":{"lkuCodeId":1222,"code":"DOCUMENT","description":"Document","lkuCodeTypeId":341,"lkuCodeType":{"codeType":"LIBRARY_ITEM_TYPE","description":"Library Item Type"}}}],"transitions":[],"responsibleMd":{"acronym":"SOMD","canUserEdit":false,"city":"","external":false,"linkCount":0,"organizationId":9526,"organizationName":"Space Operations Mission Directorate","organizationType":"NASA_Mission_Directorate","naorganization":false,"organizationTypePretty":"NASA Mission Directorate"},"program":{"acronym":"HRP","active":true,"description":"Strategically, the HRP conducts research and technology development that: 1) enables the development or modification of Agency-level human health and performance standards by the Office of the Chief Health and Medical Officer (OCHMO) and 2) provides Human Exploration Operations Mission Directorate (HEOMD) with methods of meeting those standards in the design, development, and operation of mission systems.
HRP research focuses on reducing crew health and performance risks for exploration missions. In addition, HRP research gathers the data necessary to understand and mitigate the long-term health risks to the crew, to allow the update of specific crew health standards for each mission scenario, to support crew selection, and to address any rehabilitation requirements. The OCHMO owns and sets the standards upon which the HRP research efforts are based. The Transition to Medical Practice process defined by the OCHMO is used to review the HRP deliverable countermeasures and technologies prior to their operational use.
HRP technology development advances medical care and countermeasure systems for exploration and vehicle development programs’ missions. The HRP also develops and matures operational concepts to inform requirements for the design and operation of space vehicles and habitats needed for exploration. This includes requirements for displays and controls, internal environments, operations planning, habitability, and methodologies for maintaining crew physical and mental health as well as physical and cognitive capabilities.
The HRP is managed at the Johnson Space Center (JSC) and comprised of six research and technology development projects. These projects provide the program knowledge and capabilities to conduct research addressing the human health and performance risks as well as advancing the readiness levels of technology and countermeasures to the point of transfer to the customer programs and organizations. The six projects within the HRP are referred to as Program Elements throughout this document. Each Element is managed at the JSC with research and technology development expertise provided by JSC, Ames Research Center (ARC), Glenn Research Center (GRC), the Langley Research Center (LaRC), and the Kennedy Space Center (KSC), as well as other Agencies, institutions and organizations identified in the following Element descriptions. The six Elements are:
1) Space Radiation (SR) Element – The SR Element performs investigations to develop the scientific basis to accurately predict and mitigate health risks from the space radiation environment. This knowledge yields recommendations to permissible exposure limits, assessment/projection tools/models of crew risk from radiation exposure, and models/tools to assess vehicle design for radiation protection. The SR Element conducts research using accelerator-based simulation of space radiation. The SR Element explores and develops countermeasures to the deleterious effects of radiation on human health. The LaRC and ARC contribute to the SR Element.
2) Behavioral Health and Performance (BHP) Element – The BHP Element identifies and characterizes the behavioral and performance risks associated with training, living and working in space, and returning to Earth. The BHP Element develops strategies, tools, and technologies to mitigate these risks.
3) Exploration Medical Capability (ExMC) Element – The ExMC Element is responsible for defining requirements for crew health maintenance during exploration missions, developing treatment scenarios, extrapolating from the scenarios to health management modalities, and evaluating the feasibility of those modalities for use during exploration missions. The ExMC Element is also responsible for the technology and informatics development that will enable the availability of medical care and decision systems for exploration missions. GRC, LaRC and ARC contribute technology development and clinical care expertise to the ExMC Element.
4) Space Human Factors and Habitability (SHFH) Element – The SHFH Element is focused on the human system in space environments: how do humans interface with spacecraft systems, and what environmental and habitation factors are essential to maintain crew health and performance? The SHFH Element has three main focus areas: space human factors engineering, advanced environmental health, and advanced food technology. The ARC contributes to the SHFH Element.
5) Human Health Countermeasures (HHC) Element – The HHC Element is responsible for understanding the physiological effects of spaceflight and developing countermeasure strategies and procedures. The Element provides the biomedical expertise for the development and assessment of medical standards and vehicle and spacesuit requirements dictated by human physiological needs. In addition, the HHC Element develops a validated and integrated suite of countermeasures for exploration missions to ensure the maintenance of crew health during all mission phases. The ARC and GRC contribute to the HHC Element as well as international agencies cooperating on joint flight proposals, reduced gravity studies, and collaborative bed rest studies.
6) International Space Station Medical Projects (ISSMP) Element – The ISSMP Element is responsible for managing all ISS and ground analog human research activities, including those integrated with operational medical support of the crews, and to ensure research tasks are completed. The ISSMP is responsible for all planning, integration, and implementation services for HRP research tasks and evaluation activities requiring access to space or related flight resources on the ISS, Soyuz, Progress, Multi-Purpose Crew Vehicle (MPCV), commercial vehicles and ground-based spaceflight analogs. This includes support to related pre- and postflight activities. The ARC contributes to the ISSMP with technical support to experiment management, hardware development, and international partner integration. KSC provides support for baseline data collection requirements development for future crew vehicles.
The work performed within the six Elements is supported by numerous collaborative efforts with academia and international agencies. Relationships with the ISS Program, the National Space Biomedical Research Institute (NSBRI), the Brookhaven National Laboratory (BNL), and the University of Texas Medical Branch (UTMB) are critical to the HRP successfully meeting its objectives. The HRP also maintains collaborative relationships with the International Partners through various working groups. These relationships enhance the research capabilities and provide synergy between the research and technology efforts of different countries.
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