Funding - University of Alaska system



Alaska NASA EPSCoRResearch Initiation SolicitationApplication and InstructionsAlaska NASA EPSCoR Program OfficeUniversity of Alaska Fairbanks138 ELIF BuildingPO Box 755919Fairbanks, Alaska 99775-5919Phone: (907) 474-6833kekaiser@alaska.eduAlaska NASA EPSCoR Program Research Initiation SolicitationIntroduction Alaska NASA EPSCoR Program is currently soliciting research initiation proposals from Affiliated University researchers. The Research Initiation program will provide up to $20,000 (total direct costs) or if a collaborative proposal between MAU’s, up to $30,000 (total direct costs), to initiate new research collaborations with NASA scientists and engineers. This program is not intended to augment existing research.Purpose The goal of the Research Initiation Grant program is to encourage, support, and facilitate the development and enhancement of NASA relevant science and engineering research within the state of Alaska. Proposed academic research projects must be aligned with new or continuing NASA research priorities and should have the potential to link Alaska faculty to NASA colleagues at Field Centers and/or Mission Directorates (see Appendix A).Eligibility Competition is open to full-time faculty at affiliated higher education institutions in good standing. Adjuncts and post-docs are not eligible to apply. Alaska NASA EPSCoR Program encourages the participation of PI’s who are women, under-represented minorities, or persons with disabilities.Proposal Proposed research projects must be in an area that is aligned with a new or continuing NASA research priority and/or technology need and with Alaska NASA EPSCoR research priorities. The proposal narrative must make an explicit connection with NASA. The proposal should also detail plans for establishing or strengthening links with NASA researchers. If contact has been established with colleagues at a NASA Center or Mission Directorate, a letter or email of support for the project from a NASA contact will significantly strengthen the case for funding. A significant degree of NASA contact is expected and should be detailed in the proposal package.Proposals must be single-spaced with type size of at least 11 points and margins of at least one inch on all sides.Each proposal must be in the following format: Research Initiation Grant Application Cover Page (see attached)Please fill out the Research Initiation Grant Application cover page completely including the signature of the appropriate signing authority indicating that if awarded this proposal can be accepted.Project Description This section describes the proposed project and should include but not be limited to the following (five page maximum).Synopsis: Please include a short synopsis of your project outlining its purpose in terms understandable by the general reader. If your project is selected for funding, this wording will be used on our website.Alignment with NASA: Detail how this project aligns with the goals of one or more NASA Directorates or Centers. Because the NASA EPSCoR Program is required to demonstrate the alignment of each of our projects with NASA Directorate or Center goals, proposals that do not demonstrate such alignment will not be funded. The proposal should detail plans for establishing or strengthening links with NASA researchers. If contact has been established with colleagues at a NASA center or Mission Directorate, a letter of support for the project from a NASA contact will significantly strengthen the case for funding. A significant degree of NASA contact is expected and should be detailed in the proposal package. Appendix A provides information on NASA Mission Directorates and their priority areas.Alignment with Alaska NASA EPSCoR: Detail how this project aligns with the research priorities of the Alaska NASA EPSCoR program.Proposed Activities: Clearly state the purpose, goals, SMART objectives (including targets and metrics) and significance of the project, the approach to be used to achieve the objectives, and the specific outcomes that can be considered as project results. The nature and extent of collaboration between the researchers must be clearly explained and the role of each must be defined. Discuss how this proposal will contribute to the overall research infrastructure, science and/or technical capability, and/or economic development of Alaska. PI’s are encouraged to review “How to Write SMART Objectives” located on the Alaska NASA EPSCoR website.Evaluation Plan: Provide a brief self-evaluation plan, including evaluation methodology that is directly linked to achieving the specified SMART objectives. Sustainability: Provide a brief plan for sustainability after the conclusion of Alaska NASA EPSCoR funding. Specifically, a minimum of one significant funding opportunity in the area of the proposed research must be identified. It is expected that at least one proposal will be submitted as an outcome this award. Grantees that submit at least one significant proposal related to the proposed research during the time of this award may be eligible for a second year augmentation of $10,000.Time Line/Schedule: Please provide dates when you will start the project, when you will finish the project, and any important milestones. You will be required to submit a Final Report. The period of performance of the award is 12 months from the award date. There will be no extensions. Awardees are expected to present at the Alaska Space Grant and Alaska NASA EPSCoR Education and Research Symposium following the end of their award period. Alaska NASA EPSCoR will provide travel assistance. Personnel: List of team members and their roles and responsibilities. Describe any partnerships and/or cross-MAU collaborations, including their roles and responsibilities. Letters of commitment and support from each partner may be included at the end of the proposal and are not part of the page limit for the project description.References: Provide any supporting references if desired. Budget Provide a budget summary (see attached form) for your proposal that shows labor (people, hours, rates and total), travel details (domestic only), and any other costs, and a one page budget justification. You may request up to $20,000 total direct costs. If this proposal is a collaboration between MAU’s, you may request an additional $10,000 for a total of $30,000 total direct costs. International travel consider cannot be funded. In order to satisfy NASA grant matching requirements, the total award amount, must be matched 1:1 by the proposing institution(s) through non-federal funds. Although the method of match is flexible, NASA encourages researchers to methods that add value to Alaska’s existing research capabilities. Acceptable match includes but is not limited to: fully loaded faculty salary, in-kind match, and federally allowable F&A. This 1:1 match must be documented with a Match Authorization Form signed by an official in the university Authorized Organizational Representative and included in the proposal budget. Faculty are encouraged to contact the NASA EPSCoR Program office to discuss match requirements. Resume Material Maximum two page CV of Principal Investigator only. The CV should demonstrate the PI’s expertise in conducting the program. If this is a cross-MAU collaboration, then submit a two page CV for the PI at each MAU.Letters of Commitment/CollaborationAs needed.Period of Performance and Amount of AwardsThe period of performance of this award may not exceed 12 months. Projects are eligible for one time funding only. Proposal Submission and Selection ScheduleDates | Deadlines Application Deadline: January 1, 2021. Email all application materials, including supporting documentation, as a single pdf file to Kayde Kaiser (kekaiser@alaska.edu) at the Alaska NASA EPSCoR office by the stated deadline. The subject line of the email should say: Alaska NASA EPSCoR RID Application. Incomplete or late applications will not be considered. If the deadline is on a weekend or holiday, please send the application by close of business (5PM) on the first business day following the deadline. Proposers must include the names and emails of two potential reviewers. Reviewers will agree to review any proposal given to them, and should be asked by the applicant prior to proposal submission. Applicants will be notified of award decisions by email.Reporting Requirements The project PI will submit a final report in narrative form within one month of the end of the period of performance with a complete description of project activities and self-evaluation in terms of meeting the goals and SMART objectives of the project. A template of the required report is available at . Other Requirements Alaska Space Grant/NASA EPSCoR Programs Annual Symposium. One member of the proposing team is required to attend the yearly Alaska Space Grant/NASA EPSCoR Programs Annual Symposium. Alaska NASA ESPCoR will cover travel expenses to the Symposium. Contact the Alaska EPSCoR program office to determine current location of the Symposium.Acknowledgment of Support. An acknowledgment of Alaska NASA EPSCoR support must appear in any publication of any material based on this project in terms similar to the following: "This material is based in part upon work supported by the Alaska NASA EPSCoR Program.”Nondiscrimination. No person shall be excluded from participation in, be denied benefits of, or be otherwise subjected to discrimination under this grant on grounds of race, color, national origin, religious affiliation, handicap, or gender. Proposal Review and Evaluation Proposals will be selected in a merit-based, peer-reviewed competition for scientific, technical, and management merit. Researchers must provide sufficient information to allow reviewers to make an informed judgment. Proposals will be evaluated using the following criteria:Alignment with NASA’s strategic plan.Alignment with Alaska NASA EPSCoR priority areasScientific and technical merit of the proposal.Probability of support beyond NASA EPSCoR funding.Probability project will result in published research.FundingAwards are subject to availability of NASA funding.SMART Objectives:Specific – Provide enough detail about the program to communicate exactly what will be done.Measurable – Quantify the objective. Provides tangible evidence of completion (metrics) to indicate success in the area.Appropriate – Aligned with the NASA guiding documents and target audienceRealistic – Set appropriate targets based on the budget investment.Time Frame – State when the objective will be achieved; provide timeframe indicating when objective will be met.NASA CollaborationAll researchers requesting Alaska NASA EPSCoR research funding are strongly encouraged to established contact with a NASA Mission Directorate and/or NASA Field Center to obtain a letter of support. This letter should state how the proposed research program is a priority for NASA and how the Field Center or Mission Directorate will interact with and support the proposed research project. If researchers are not able to get a letter of support in time to submit with your proposal, please give us the name and contact information of the NASA personnel you are speaking with. Researchers who need help finding a NASA collaborator are encouraged to contact the Space Grant office for help. Most Field Centers and Mission Directorates have University Research and Affairs offices which are good places to start a rmation about the NASA Mission Directorates can be found at:Science Mission Directorate: Exploration and Operations Mission Directorate: Space Technology Mission Directorate: Aeronautics Research Mission Directorate: about the NASA Field Centers can be found at:Headquarters: Research Center: Flight Research Center: Research Center: Space Flight Center: Propulsion Lab: Space Center: Space Center: Research Center: Space Flight Center: Space Center: A. Strategic Framework for NASANASA Mission DirectoratesNASA’s Mission to pioneer the future in space exploration, scientific discovery, and aeronauticsresearch, draws support from four Mission Directorates, each with a specific responsibility.The Aeronautics Research Mission Directorate (ARMD): Enable a safer, more secure, efficient, and environmentally friendly air transportation system. ()The Human Exploration and Operation Mission Directorate (ESMD): Operate the International Space Station and prepare for human exploration beyond low Earth orbit. ()The Science Mission Directorate (SMD): Exploring the Earth-Sun system, our own solar system, and the universe beyond. () The Space Technology Mission Directorate (STMD): Develop the crosscutting, advanced and pioneering new technologies needed for current and future missions, benefiting the aerospace industry and other agencies, and addressing national needs. ()NASA Research Areas of InterestNASA EPSCoR research priorities are defined by the Mission Directorates—Aeronautics Research, Exploration Systems, Science, and Space Operations. Each Mission Directorate covers a major area of the Agency’s research and technology development efforts. Information about current NASA research solicitations can be found on NSPIRES at (select “Solicitations” and then “Open Solicitations”).Research priorities for each of the Mission Directorates can be found at the following locations:Aeronautics Research Mission Directorate (ARMD), POC: Karen Rugg, karen.l.rugg@Researchers responding to the ARMD should propose research that is aligned with one or more of the ARMD programs. ?Proposers are directed to the following:ARMD Programs: National Aeronautics and Space Administration (NASA), Headquarters, Aeronautics Research Mission Directorate (ARMD) Current Year version of the NASA Research Announcement (NRA) entitled, "Research Opportunities in Aeronautics (ROA)” has been posted on the NSPIRES web site at (select “Solicitations” and then “Open Solicitations”). Detailed requirements, including proposal due dates are stated in appendices that address individual thrust areas. These appendices will be posted as amendments to the ROA NRA and will be published as requirements materialize throughout the year.Human Exploration & Operations Mission Directorate (HEOMD), POC: Bradley Carpenter, bcarpenter@Human Research ProgramThe Human Exploration and Operations (HEO) is focused on investigating and mitigating the highest risks to human health and performance in order to enable safe, reliable, and productive human space exploration. The HEO budget enables NASA to resolve health risks in order for humans to safely live and work on missions in the inner solar system. HRP conducts research, develops countermeasures, and undertakes technology development to address human health risks in space and ensure compliance with NASA's health, medical, human performance, and environmental standards.Space Life SciencesThe Space Life Sciences, Space Biology Program has three primary goals:To effectively use microgravity and the other characteristics of the space environment to enhance our understanding of fundamental biological processes;To develop the scientific and technological foundations for a safe, productive human presence in space for extended periods and in preparation for exploration;To apply this knowledge and technology to improve our nation's competitiveness, education, and the quality of life on Earth.These goals will be achieved by soliciting research using its three program elements:Cell and Molecular Biology and Microbial Biology - studies of the effect of gravity and the space environment on cellular, microbial and molecular processes;Organismal & Comparative Biology - studies and comparisons of responses of whole organisms and their systems; andDevelopmental Biology – studies of how spaceflight affects reproduction, development, maturation and aging of multi-cellular organisms, as described in NASA's ?Fundamental Space Biology Science Plan (PDF, 7.4 MB).Further details about ongoing activities specific to Space Biology are available at:? Space Biosciences websitePhysical Science Research The Physical Science Research Program, along with its predecessors, has conducted significant fundamental and applied research, both which have led to improved space systems and produced new products offering benefits on Earth. NASA's experiments in various disciplines of physical science reveal how physical systems respond to the near absence of gravity. They also reveal how other forces that on Earth are small compared to gravity, can dominate system behavior in space.The Physical Science Research Program also benefits from collaborations with several of the International Space Station international partners—Europe, Russia, Japan, and Canada—and foreign governments with space programs, such as France, Germany and Italy. The scale of this research enterprise promises new possibilities in the physical sciences, some of which are already being realized both in the form of innovations for space exploration and in new ways to improve the quality of life on Earth.Research in physical sciences spans from basic and applied research in the areas of:Fluid physics: two-phase flow, phase change, boiling, condensation and capillary and interfacial phenomena;Combustion science: spacecraft fire safety, solids, liquids and gasses, supercritical reacting fluids, and soot formation;Materials science: solidification in metal and alloys, crystal growth, electronic materials, glasses and ceramics;Complex Fluids: colloidal systems, liquid crystals, polymer flows, foams and granular flows;Fundamental Physics: critical point phenomena, atom interferometry and atomic clocks in spaceImplementing Centers: NASA's Physical Sciences Research Program is carried out at the Glenn Research Center (GRC), Jet Propulsion Laboratory (JPL) and Marshall Space Flight Center (MSFC).? Further information on physical sciences research is available at ResearchSpacecraft: Guidance, navigation and control; thermal; electrical; structures; software; avionics; displays; high speed re-entry; modeling; power systems; interoperability/commonality; advanced spacecraft materials; crew/vehicle health monitoring; life support.Propulsion: Propulsion methods that will utilize materials found on the moon or Mars, “green” propellants, on-orbit propellant storage, motors, testing, fuels, manufacturing, soft landing, throttle-able propellants, high performance, and descent.Robotic Systems for Precursor Near Earth Asteroid (NEA) Missions: Navigation and proximity operations systems; hazard detection; techniques for interacting and anchoring with Near Earth Asteroids; methods of remote and interactive characterization of Near Earth Asteroid (NEA) environments, composition and structural properties; robotics (specifically environmental scouting prior to human arrival and later to assist astronauts with NEA exploration); environmental analysis; radiation protection; spacecraft autonomy, enhanced methods of NEA characterization from earth-based observation.Robotic Systems for Lunar Precursor Missions:? Precision landing and hazard avoidance hardware and software; high-bandwidth communication; in-situ resource utilization (ISRU) and prospecting; navigation systems; robotics (specifically environmental scouting prior to human arrival, and to assist astronaut with surface exploration); environmental analysis, radiation protection.Data and Visualization Systems for Exploration: Area focus on turning precursor mission data into meaningful engineering knowledge for system design and mission planning of lunar surface and NEAs.? Visualization and data display; interactive data manipulation and sharing; mapping and data layering including coordinate transformations for irregular shaped NEAs;? modeling of lighting and thermal environments; simulation of environmental interactions including proximity operations in irregular micro-G gravity fields and physical stability of weakly bound NEAs.Research and technology development areas in HEOMD support launch vehicles, space communications, and the International Space Station. Examples of research and technology development areas (and the associated lead NASA Center) with great potential include:Processing and Operations?Crew Health and Safety Including Medical Operations (Johnson Space Center (JSC))In-helmet Speech Audio Systems and Technologies (Glenn Research Center (GRC))??Vehicle Integration and Ground Processing (Kennedy Space Center (KSC))?Mission Operations (Ames Research Center (ARC))?Portable Life Support Systems (JSC)Pressure Garments and Gloves (JSC)Air Revitalization Technologies (ARC)In-Space Waste Processing Technologies (JSC)Cryogenic Fluids Management Systems (GRC)Space Communications and Navigation?Coding, Modulation, and Compression (Goddard Spaceflight Center? (GSFC))??????Precision Spacecraft and Lunar/Planetary Surface Navigation and Tracking (GSFC)?Communication for Space-Based Range (GSFC)??Antenna Technology (Glenn Research Center (GRC))?Reconfigurable/Reprogrammable Communication Systems (GRC)Miniaturized Digital EVA Radio (Johnson Space Center (JSC))??Transformational Communications Technology (GRC)?Long Range Optical Telecommunications (Jet Propulsion Laboratory (JPL))??Long Range Space RF Telecommunications (JPL)?Surface Networks and Orbit Access Links (GRC)??Software for Space Communications Infrastructure Operations (JPL)TDRS transponders for launch vehicle applications that support space communication and launch services (GRC)Space Transportation?Optical Tracking and Image Analysis (KSC)Space Transportation Propulsion System and Test Facility Requirements and Instrumentation (Stennis Space Center (SSC)??Automated Collection and Transfer of Launch Range Surveillance/Intrusion Data (KSC)Technology tools to assess secondary payload capability with launch vehicles (KSC)Spacecraft Charging/Plasma Interactions (Environment definition & arcing mitigation) (Marshall Space Flight Center (MSFC))Science Mission Directorate (SMD), POC: Kristen Erickson, Director, Science Engagement & Partnerships, NASA Headquarters. Phone: (202) 358-1017 kristen.erickson@ Detailed information on SMD research priorities is available at the following URLs:NASA Science: NASA Science Plan: 's Plan for a Climate-Centric Architecture for Earth Observations and Applications from Space: Opportunities in Space and Earth Science (ROSES):???? .? Select “Solicitations”, “Open Solicitations”, and then “Research Opportunities in Space and Earth Sciences (ROSES) – 2010”.NASA SMD Program Officers List: Technology Mission Directorate (STMD), POC: Joseph Grant joseph.grant-1@In addition to the key areas of:? 1) ISS utilization, 2) MGI, 3) Advanced Manufacturing and 4) Robotics,? the Space Technology Mission Directorate (STMD) is responsible for developing crosscutting, pioneering, and transformational new technologies and capabilities, needed by the Agency to achieve its current and future missions. STMD is divided into the following nine programs, representing all levels of technology readiness (TRL) from early stage innovations to mission-ready projects: NASA Innovative Advanced Concepts focuses on visionary aeronautics and space system concepts. TRL Range: 1-3Space Technology Research Grants focus on innovative research in advanced space technology via range of university grants involving senior researchers, early career faculty and graduate students. TRL Range: 1-3Center Innovation Fund stimulates creativity and innovation at the NASA field centers. TRL Range: 1-3Centennial Challenges offers incentive prizes to stimulate innovative solutions by citizen inventors and independent teams outside of the traditional aerospace community. TRL Range: 5-9Small Business Innovative Research (SBIR)/Small Business Technology Transfer (STTR) engage small businesses in aerospace research and development for infusion into NASA missions and the nation’s economy.? TRL Range: 2-5Game Changing Development focuses on maturing advanced space technologies that may lead to entirely new approaches for the Agency's future space missions. TRL Range: 3-5Small Spacecraft Technology develops and demonstrates subsystem technologies and new mission capabilities for small spacecraft.? TRL Range: 3-7Flight Opportunities facilitates low-cost access to suborbital environments for a broad range of innovators as a means of advancing space technology development and supporting the evolving entrepreneurial commercial space industry. TRL Range: 5-7Technology Demonstration Missions seeks to mature laboratory-proven technologies to flight-ready status. TRL Range: 5-7In addition, Space Technology supports NASA’s participation in the following cross-agency partnerships and National initiatives:The National Network for Manufacturing Innovation brings together government agencies to collaborate toward modernization of manufacturing, and supports direct investments in small businesses and training for the high-skilled manufacturing workforce. ()The National Nanotechnology Initiative brings government agencies together with a collective interest in understanding and controlling matter at the nanoscale, leading to a revolution in technology and industry that benefits society. ()The National Robotics Initiative brings together government agencies with interest in accelerating the development and use of robots in the United States that work beside, or cooperatively with, people and funds innovative robotics research and applications emphasizing the realization of such co-robots acting in direct support of and in a symbiotic relationship with human partners. ()Materials Genome Initiative is a multi-agency initiative designed to create a new era of policy, resources, and infrastructure that support U.S. institutions in the effort to discover, manufacture, and deploy advanced materials twice as fast, at a fraction of the cost.Additional information about STMD programs is available at investing in high payoff, crosscutting and transformational technologies the broad space enterprise cannot tackle today, STMD matures these technologies required for NASA’s future missions in science and exploration, while proving the capabilities and lowering the cost for other government agencies and commercial space activities. By pushing the boundaries of aerospace technology and seizing opportunities, investing in space technology allows NASA and our Nation to remain at the cutting edge. NASA’s STMD: Advances technologies that are broadly applicable to multiple stakeholders Employs a portfolio approach to capture the entire spectrum of technology readiness Competitively selects research by academia, industry, NASA Centers, and other government organizations based on technical merit Coordinates with internal and external stakeholders and leverages the technology investments of our international, other government agency, academic and industrial partnersResults in new inventions, new capabilities and the creation of a pipeline of innovators aimed at serving future NASA needs and National needs Grows the Nation’s innovation economy and creates high-technology jobs STMD programs intentionally push the boundaries of what is possible with a strong focus on innovation.? No single effort is guaranteed to succeed and some will fail as novel approaches are attempted. While appropriate safety, design, and verification practices are followed, STMD programs employ a graduated technical risk tolerance approach.? More resources, rigor, and greater risk avoidance apply to higher cost and higher technology readiness level (TRL) efforts, such as test articles destined for complex ground tests and/or space flight demonstrations.? In all cases, a transparent, informed risk acceptance approach applies.STMD programs described above fund projects aligned with the Agency’s Space Technology Roadmaps (), which reflect the National Research Council’s (NRC’s) review and prioritization ) of these roadmaps. NASA developed the Space Technology Roadmaps in order to facilitate the development and demonstration of space technologies that address the needs of NASA’s exploration systems, earth and space science, and space operations mission areas, as well as those that contribute to critical national and commercial needs in advanced space technologies. Each of the 14 roadmaps focuses on a Technology Area (TA). The roadmaps were initially drafted by NASA and subsequently independently reviewed by the NRC. The NRC’s review (link provided above) resulted in findings, recommendations, and priorities – within and across the technology areas – intended to inform NASA’s space technology investments. The NRC’s final report () was released early in 2012.Applicants proposing Space Technology related content are strongly encouraged to familiarize themselves with the roadmap document most closely aligned with their space technology interests. Links to the individual roadmap documents are provided below along with the NRC’s top 16 priorities within their corresponding technology area:Technology AreasNRC Priorities within Technology AreasTA01 Launch Propulsion Systems In-Space Propulsion Technologies(Nuclear) Thermal PropulsionElectric Propulsion (2.2.1)TA03 Space Power and Energy Storage Power Generation (Photovoltaic and Thermal) (3.1.3)Fission Power Generation (3.1.5)TA04 Robotics, Tele-Robotics, and Autonomous Systems Terrain Mobility (4.2.1)TA05 Communication and Navigation Navigation &ControlTA06 Human Health, Life Support, and Habitation Systems Mitigation for Human SpaceflightLong-Duration Crew Health Environmental Control and Life Support Systems TA07 Human Exploration Destination Systems Science Instruments, Observatories, and Sensor Systems Instruments and Sensors (8.3.3)Optical Systems (Instruments and Sensors) (8.1.3)High Contrast Imaging and Spectroscopy Technologies (8.2.4)Detectors and Focal Planes (8.1.1)TA09 Entry, Descent, and Landing Systems Descent and Landing and TPS (see also (TA14)TA10 Nanotechnology Modeling, Simulation, Information Technology and Processing Materials, Structures, Mechanical Systems, and Manufacturing and Multifunctional Materials and StructuresTA13 Ground and Launch Systems Processing Thermal Management Systems and Thermal Protection Systems (see also TA09)Active Thermal Control of Cryogenic Systems NASA will balance investments across all levels of technology readiness. By investing in all TRLs for pioneering, crosscutting and transformational technologies, the Agency ensures a robust pipeline of new capabilities for future space exploration missions.04318000 Alaska NASA EPSCoR Program Research Grant Application Cover PageProject TitleProject Title: FORMTEXT ?????Applicant InformationApplicant/PI Name:First Name: FORMTEXT ?????Last Name: FORMTEXT ?????Position Title: FORMTEXT ?????Institution: FORMTEXT ?????AddressAddress 1: FORMTEXT ?????Address 2: FORMTEXT ?????City: FORMTEXT ?????State: FORMTEXT ?????Zip: FORMTEXT ?????Email Address: FORMTEXT ?????Phone (Voice): FORMTEXT ?????(Fax): FORMTEXT ?????Funds Requested: FORMTEXT ?????Proposed Match (1:1 required): FORMTEXT ?????Signature of Director/Dean:All ApplicationsSubmit this cover sheet along with all other required application materials in a single pdf file to:Kayde Kaiserkekaiser@alaska.edu Subject: Alaska NASA EPSCoR RID ApplicationNASA EPSCoR ProgramBudgetTitle of Proposed Project:Principal Investigator(s):Institution(s):Proposed BudgetAK EPSCoR FundsInstitutional ContributionA. Salaries:Senior Personnel*$$Other Personnel*$$Student Employees*$$Fringe Benefits$$Subtotal - Salaries$$B. Supportive Expenses:Travel$$Supplies$$Assistantships$$Other Expenses (identify)_________________$$_________________$$Subtotal Expenses$$C. Total Direct CostsD. Indirect Costs (50.5% F&A)**$$E. Total Project Costs$$* Please list all personnel (senior, other, student) individually by name. Add rows to the table as needed.**Awards to non-UA faculty will be provided as a subaward with F&A being retained at UA. 1:1 match must still be for the Total Project Costs including F&A. ................
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