Through the Center Innovation Fund, the Space Technology Mission Directorate (STMD) allocates a small portion of the NASA workforce and procurement budget to internal research and development to feed early stage innovation in technology and exploration. Activities within the Center Innovation Fund are proposed and led by NASA scientists and engineers. These activities and creative initiatives pursue emerging technologies that leverage talent and capabilities at NASA Langley Research Center.
Through the Independent Research and Developments activity, NASA Langley Research Center allocates funds to invest in early stage, high-payoff technologies and systems that are aligned with the NASA and Langley strategic plans and have high potential for future applications.
Some projects will align only with either CIF or IRAD support, but many are supported by a combination of both programs to leverage the most from limited resources. The investment in these early stage technologies is intended to mature them to the point that, if successful, they can substantially influence future Mission Directorate programs and projects, and receive follow-on support from NASA programs, external partners, or through commercialization.
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","parentProgram":{"ableToSelect":false,"isActive":true,"description":"Catalyst is a portfolio of early stage programs that specialize in different innovation constituencies and mechanisms to push the state of the art in aerospace technology development","programId":92327,"responsibleMd":{"canUserEdit":false,"locationEdit":false,"organizationRolePretty":"","organizationTypePretty":""},"title":"Catalyst","acronymOrTitle":"Catalyst"},"parentProgramId":92327,"programId":64,"responsibleMd":{"canUserEdit":false,"locationEdit":false,"organizationRolePretty":"","organizationTypePretty":""},"stockImageFileId":36643,"title":"Center Innovation Fund","acronymOrTitle":"CIF"},"parentProgramId":64,"programId":167,"responsibleMd":{"organizationId":4875,"organizationName":"Space Technology Mission Directorate","acronym":"STMD","organizationType":"NASA_Mission_Directorate","canUserEdit":false,"locationEdit":false,"organizationRolePretty":"","organizationTypePretty":"NASA Mission Directorate"},"responsibleMdOffice":4875,"stockImageFileId":36655,"title":"Center Innovation Fund: LaRC CIF","acronymOrTitle":"LaRC CIF"},"description":"
The harmful effects of radiation are one of the most significant challenges to long duration spaceflight. Therefore, we aim to develop a new approach for optimizing radiation shielding materials systems. In particular, we are looking at providing a tool to optimize how materials layers are sequenced in order to enhance radiation shielding as well as to mitigate the effects of secondary radiation. There are two broad scenarios where layering of materials is required in spacecraft and can have an impact on the radiation environment crew and equipment experience, (1) where the layers are deliberately put in sequence for the best shielding; (2) when materials are required to be in place to serve other functions such as electrical conductors, logistics etc. With the new tool we want to be able to, in both cases, determine the optimum arrangement of these materials for shielding and dynamically so, in the case of logistics. Success in providing the best possible radiation shielding means missions can run longer and safer by getting exposure as low as is reasonably achievable (ALARA). Currently, while there are a number of tools that calculate radiation transport (how radiation propagates through a materials system or spacecraft structure), there has been little work looking specifically at how to get the most benefits from sequencing layers of materials and particularly how to do so in a way that is adaptable to the radiation environment that is to be encountered. Typically, a few materials layers that the designer has an intuitive feel might work best are tested (using the transport codes) and the best of those adopted. There is not an exhaustive search of the solution space for the best possible materials configurations. The present approach combines robust physics based tools for radiation transport in materials, with an effective strategy for sifting through a large range of possible shielding layer configurations efficiently. Mimicking the process of natural selection, allows a more thorough search of the space of possible shielding layer configurations by speeding up convergence to effective solutions in an economical (time and computer resources) way. This is particularly important for dynamic solutions such as when considering changing amounts of logistics supplies being used in a radiation shielding application or changing radiation environments. Genetic Algorithms also allow for the discovery of hitherto unexpected, non-conventional and non-intuitive shielding layer configurations.
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