GGrantIndex
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Trustees Of Dartmouth College

Compare ↔
$158,458,001
Total funding
255
Grants

Funding over time

peak $31.5M · FY200825
$50M$37.5M$25M$12.5M$0
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25

Funding mix

By agency

DOD$84,489,207 · 115
NASA$45,516,991 · 98
DOE$25,820,058 · 31
USDA$2,631,745 · 11

By mechanism

$158,458,001 · 255

Investigators at Trustees Of Dartmouth College

InvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Exposure= the full size of every grant they're on ($1M each).

Rising Stars

First grant in the last 5 yrs

Not enough data

Emerging Leaders

6–10 yrs in

Not enough data

All-Time

Most funded here, all years

Not enough data

Largest grants

BALLOON ARRAY FOR RSBP RELATIVISTIC ELECTRON LOSSES (BARREL)THE BARREL PROPOSAL PRESENTED A PERSUA$7,643,345
· FY2008 · National Aeronautics and Space Administration
INTEGRATED FOUNDATIONS OF SENSING, MODELING, AND DATA ASSIMILATION FOR SEA ICE PREDICTION$7,270,752
· FY2020 · Department of the Navy
THE INTENSITY OF ENERGETIC PARTICLES TRAPPED IN EARTH'S RADIATION BELTS VARIES BY ORDERS OF MAGNITUDE ON TIMESCALES FROM MINUTES TO DAYS. THIS DYNAMIC VARIABILITY IS CONTROLLED BY A SHIFTING BALANCE BETWEEN DIFFERENT ACCELERATION AND LOSS MECHANISMS. PRECIPITATION INTO THE ATMOSPHERE HAS BEEN RECOGNIZED FOR DECADES AS A MAJOR LOSS MECHANISM YET CRITICAL QUESTIONS ABOUT THE PHYSICAL PROCESSES REMAIN. SIGNIFICANT PROGRESS HAS BEEN MADE IN IDENTIFYING THE PLASMA WAVES THAT DRIVE ATMOSPHERIC PRECIPITATION [E.G. THORNE 2010 FOR REVIEW]. HOWEVER THE PHYSICAL "MODES" IN WHICH THESE ACT IS NOT WELL SPECIFIED: ELECTRONS MAY BE SCATTERED SLOWLY THROUGH A DIFFUSIVE PROCESS [E.G. SHPRITS ET AL. 2008 REVIEW] OR RAPIDLY THROUGH NONLINEAR PROCESSES [E.G. ALBERT 2000; BORTNIK ET AL. 2008 OMURA ET AL. 2015]. THE PHYSICAL MODE DETERMINES THE SCATTERING RATE AND THUS THE IMPACT ON THE RADIATION BELTS. THEREFORE IT IS IMPORTANT TO ESTABLISH WHERE AND HOW FREQUENTLY LOSS MECHANISMS ACT IN DIFFERENT MODES FOR PARTICLES OF DIFFERENT ENERGIES. THE RELATIVISTIC ELECTRON ATMOSPHERIC LOSS (REAL) CUBESAT MISSION WILL CHARACTERIZE DIFFERENT MODES OF ATMOSPHERIC LOSS BY MAKING HIGH TIME RESOLUTION MEASUREMENTS OF THE ELECTRON PITCH ANGLE AND ENERGY DISTRIBUTIONS IN LOW EARTH ORBIT (LEO) OVER A WIDE ENERGY RANGE FROM KEV TO MEV. LEO IS IDEAL FOR MEASURING PRECIPITATION SINCE THE ATMOSPHERIC LOSS CONE IS LARGER (~60 DEG) THAN AT THE EQUATOR (FEW DEGREES). THE OVERARCHING GOAL OF REAL IS TO IMPROVE OUR UNDERSTANDING OF THE PHYSICAL MECHANISMS RESPONSIBLE FOR SCATTERING RADIATION BELT ELECTRONS INTO THE ATMOSPHERE. REAL WILL INVESTIGATE SPECIFIC ASPECTS OF THESE MECHANISMS BY ANSWERING THE FOLLOWING SCIENCE QUESTIONS: 1.) WHEN AND WHERE DO DIFFERENT PRECIPITATION LOSS MODES (DIFFUSION STRONG DIFFUSION AND NONLINEAR SCATTERING) OCCUR 2.) HOW DO ELECTRON PRECIPITATION LOSS MODES DEPEND ON ENERGY 3.) WHAT IS THE RELATIVE IMPACT OF DIFFERENT PRECIPITATION LOSS MODES ON THE RADIATION BELTS REAL CONTRIBUTES TO THE HELIOPHYSICS OBJECTIVE TO "UNDERSTAND THE SUN AND ITS INTERACTIONS WITH EARTH AND THE SOLAR SYSTEM INCLUDING SPACE WEATHER" BY INVESTIGATING ELECTRON LOSS MECHANISMS IN THE MAGNETOSPHERE. REAL ADDRESSES TWO HELIOPHYSICS SCIENCE GOALS "EXPLORE THE PHYSICAL PROCESSES IN THE SPACE ENVIRONMENT FROM THE SUN TO THE EARTH AND THROUGHOUT THE SOLAR SYSTEM" AND "DEVELOP THE KNOWLEDGE AND CAPABILITY TO DETECT AND PREDICT EXTREME CONDITIONS IN SPACE TO PROTECT LIFE AND SOCIETY AND TO SAFEGUARD HUMAN AND ROBOTIC EXPLORERS BEYOND EARTH" BY IMPROVING OUR UNDERSTANDING OF WAVE-PARTICLE INTERACTIONS IN SPACE PLASMAS LEADING TO IMPROVED PREDICTIVE MODELS OF THE RADIATION BELTS.$5,058,686
· FY2020 · National Aeronautics and Space Administration
MODULAR SOCIAL INTELLIGENCE FOR TEAMING AND COALITION ADAPTATION OF HETEROGENOUS AUTONOMOUS COOPERATIVE AGENTS (ACAS) TOPIC#6$4,991,030
· FY2008 · Department of Defense
TOPIC(009) WEARABLE HEALTH AND HAZARD BIOSENSOR TECHNOLOGY FOR THE WARFIGHTER$4,250,000
· FY2025 · Department of the Army
MAPPING THE GENOME OF COHERENT QUANTUM DEFECTS FOR QUANTUM INFORMATION SCIENCE$4,180,322
· FY2021 · Department of Energy
QUANTUM THEORY FOR SPECTRAL ANALYSIS, PREDICTION, AND CONTROL OF CLASSICAL SYSTEMS$3,350,000
· FY2021 · Department of the Navy
UNDERSTANDING AND DESIGNING PHOSPHIDE SOLAR ABSORBERS WITH HIGH CARRIER LIFETIME$3,239,994
· FY2023 · Department of Energy
MATHEMATICS AND DATA SCIENCE FOR IMPROVED PHYSICAL MODELING AND PREDICTION OF SEA ICE$2,999,984
· FY2023 · Department of the Navy
MULTIPLEX PRECISION MEDICINE SYSTEM FOR EARLY-WARNING OF PROGRESSION TOWARD SHOCK AFTER TRAUMA$2,944,322
· FY2018 · Defense Health Agency
FIELD DEPLOYABLE HEARING ASSESSMENT SYSTEM FOR TRACKING NOISE-INDUCED HEARING LOSS$2,554,880
· FY2010 · Department of Defense
SPARSE, RECURRENT, LATERAL-INHIBITION NETWORKS BUILD RICH STRUCTURED REPRESENTATIONS$2,193,279
· FY2021 · Department of the Navy
MOBILE ROBOT ONBOARD ACCELERATED COMPUTATION$2,072,631
· FY2016 · Department of the Navy
WILLIAM LOTKO/DARTMOUTH COLLEGE DYNAMICS OF MAGNETOSPHERE-IONOSPHERE COUPLING OBJECTIVES AND METHODOLOGY: THIS PROJECT IS MOTIVATED BY THE OVERARCHIN$2,032,357
· FY2008 · National Aeronautics and Space Administration
MACHINE LEARNING STRATEGIES FOR PREDICTING THE RISK OF SUICIDE USING CLINICAL NOTE TEXT$2,031,453
· FY2025 · Defense Health Agency
QUANTUM SEQUENCE RECOGNITION VIA HYBRID ANALOG SPIKING-NEURON-LIKE ELEMENTS$1,997,090
· FY2019 · Department of the Navy
HUMAN SOCIETIES RELY ON LAKES AND RESERVOIRS FOR MANY ESSENTIAL ECOSYSTEM SERVICES INCLUDING THE SUPPLY OF DRINKING WATER OPPORTUNITIES FOR RECREATION AESTHETIC BENEFITS AND HABITAT FOR BIODIVERSITY. YET HUMANS ALSO IMPACT THE PROVISIONING OF THESE SERVICES BY ALTERING THE LANDSCAPE WITHIN LAKE CATCHMENTS. SUCH CHANGES FOR INSTANCE THE DEVELOPMENT OF BUILT STRUCTURES AND ROADS TYPICALLY RESULT IN THE LOSS OF NATURAL FOREST AND VEGETATIVE COVER AN INCREASE IN IMPERVIOUS SURFACES AND HABITAT FRAGMENTATION ALL OF WHICH INCREASE NUTRIENT LOADING TO LAKES AND DECREASE WATER QUALITY THROUGH THE PROMOTION OF EXCESSIVE PHYTOPLANKTON GROWTH. CYANOBACTERIAL BLOOMS ONE OF THE MAJOR CONSEQUENCES OF SUCH EXCESSIVE GROWTH CAN SIGNIFICANTLY IMPEDE THE DELIVERY OF ENVIRONMENTAL BENEFITS BECAUSE THEY DEGRADE WATER QUALITY CLARITY AND AESTHETICS STIFLE LAKE USE AND DECREASE NEARBY PROPERTY VALUES. TO DATE THE INTERACTING EFFECTS OF HUMAN AND ENVIRONMENTAL PRESSURES ON LAKE WATER QUALITY ARE NOT HOLISTICALLY UNDERSTOOD. THIS INHIBITS THE ABILITY OF STAKEHOLDERS TO MANAGE LAKES FOR RESILIENCE A CONCERN GIVEN THAT LAKES ARE FACING GROWING PRESSURE FROM BOTH LAND USE AND CLIMATE CHANGE. TO ADDRESS THIS ISSUE THE OVERARCHING GOAL OF THIS PROJECT IS TO TRANSFORM THE STATE OF KNOWLEDGE OF HOW DEMOGRAPHIC AND LAND COVER CHANGES WITHIN LAKE CATCHMENTS INTERACT WITH REGIONAL CLIMATE CHANGE AND THEREBY IMPACT LAKE WATER QUALITY PARTICULARLY WATER CLARITY AND THE INCIDENCE OF CYANOBACTERIAL BLOOMS. WE WILL FOCUS ON LAKES WITHIN PRIMARILY FORESTED WATERSHEDS IN THE NORTHEASTERN UNITED STATES PARTICULARLY THOSE THAT ARE SUBJECT TO ONGOING DEVELOPMENT AND MAJOR SHIFTS IN CLIMATE. OUR SPECIFIC OBJECTIVES ARE TO: 1.EVALUATE THE INTERACTIVE EFFECTS OF HUMAN POPULATION GROWTH ALTERED LAND USE AND LAND COVER CLIMATE VARIABILITY AND LAKE-SPECIFIC CHARACTERISTICS ON LAKE WATER QUALITY FROM 1986-2016 THEREBY DEVELOPING PREDICTIVE MODELS OF HOW LAKE WATER QUALITY MAY CHANGE IN THE FUTURE. 2.DEVELOP MUCH-NEEDED TOOLS AND MODELS FOR REAL-TIME ASSESSMENT OF CYANOBACTERIAL BLOOMS IN SMALL-TO-MODERATE-SIZED LAKES USING NEW PLATFORMS AND TECHNOLOGIES INCLUDING SUB-ORBITAL UNMANNED AERIAL SYSTEM-BASED HYPERSPECTRAL SENSORS AND CROWD-SOURCED CITIZENSCIENCE DATA COLLECTED USING SMARTPHONE APPLICATIONS. ALTOGETHER THE PROPOSED RESEARCH WILL SIGNIFICANTLY ADVANCE OUR ABILITY TO FORECAST LAKE CONDITIONS ON BOTH AN INDIVIDUAL BASIS AND ACROSS LANDSCAPES. ALTHOUGH FEW STUDIES HAVE EVALUATED HUMAN DEMOGRAPHY AS A DRIVER OF CATCHMENT CHANGE WE WILL INTEGRATE THIS IMPORTANT DISCIPLINE TO BROADEN OUR UNDERSTANDING OF LAKE ECOSYSTEMS IN AN INTERDISCIPLINARY FASHION. FURTHERMORE WE WILL USE SATELLITE AND SUB-ORBITAL REMOTELY SENSED DATA AT A VARIETY OF SPECTRAL AND SPATIAL RESOLUTIONS TO QUANTIFY CHANGES IN LAND COVER LAKE TEMPERATURE CLARITY AND ALGAL INDICATORS OVER TIME FOR CATCHMENTS AND WATER BODIES AND THEREBY WILL CONTRIBUTE TO NASA S GOALS OF COMBINING REMOTELY SENSED AND IN-LAKE MEASUREMENTS WITH OBSERVATIONAL MODELING TO PROVIDE GUIDANCE TO NATURAL RESOURCE MANAGERS. OUR PROPOSED PROJECT WILL THUS PROVIDE CRUCIAL GUIDANCE FOR THE DEVELOPMENT AND ADVANCEMENT OF CURRENT AND FUTURE NASA SENSORS PARTICULARLY IN THE HYPERSPECTRAL DOMAIN FOR EFFECTIVE MONITORING AND MANAGEMENT OF THE PLANET S FRESHWATER RESOURCES.$1,611,575
· FY2020 · National Aeronautics and Space Administration
CARBON FIBER AND VOID DETECTION USING HIGH FREQUENCY ELECTROMAGNETIC INDUCTION TECHNIQUES$1,596,988
· FY2016 · Department of the Navy
IMAGING EFFECTS OF NEUROTROPHIC FACTOR GENES ON BRAIN PLASTICITY AND REPAIR IN MULTIPLE SCLEROSIS$1,422,000
· FY2009 · Department of Defense
OBJECTIVES AND METHODOLOGY: THIS PROPOSAL ADDRESSES THE CHALLENGE TO EXPLAIN, MODEL AND PREDICT "HOW MASS AND ENERGY FLOWS IN THE MAGNETOSPHERE-IONOS$1,381,792
· FY2011 · National Aeronautics and Space Administration