Obor: Bezpečnostní a strategická studia
Příloha 2: Názvy programů užitých pro text mining
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Příloha 2: Názvy programů užitých pro text miningDARPA: Title: Biological Adaptation, Assembly and Manufacturing, Title: Advanced X-Ray Integrated Sources (AXIS), Title: Microscale Plasma Devices (MPD), Title: Semiconductor Technology Advanced Research Network (STARNet), Title: Micro-coolers for FPAs (MC-FPA), Title: Optical Radiation Cooling and Heating in Integrated Devices (ORCHID), Title: Diverse & Accessible Heterogeneous Integration (DAHI), Title: Focus Center Research Program (FCRP), Title: Quantum Entanglement Science and Technology (QuEST), Title: Fundamentals of Nanoscale and Emergent Effects and Engineered Devices, Title: Atomic Scale Materials and Devices, Title: Basic Photon Science, Title: Enabling Quantum Technologies, Title: MesoDynamical Architectures (Meso), Title: Power Components, Title: Living Foundries, Title: Dialysis-Like Therapeutics, Title: Tactical Biomedical Technologies, Title: Military Medical Imaging, Title: Reconfigurable Structures, Title: Functional Materials and Devices, Title: Manufacturable Gradient Index Optics (M-GRIN), Title: Materials for Initiation and Actuation, Title: Living Foundries, Title: Terahertz Electronics, Title: Adaptive Radio Frequency Technology (ART), Title: Nitride Electronic NeXt-Generation Technology (NEXT), Title: Micro-Technology for Positioning, Navigation, and Timing, Title: In vivo Nanoplatforms (IVN), Title: Micro-coolers for Focal Plane Arrays (MC-FPA), Title: Quantum Information Science (QIS), Title: Efficient Linearized All-Silicon Transmitter ICs (ELASTx), Title: Photonically Optimized Embedded Microprocessor (POEM), Title: Compact Mid-Ultraviolet Technology, Title: Experimental Solar Electric Propulsion Vehicle (X-SEP), Title: Gratings of Regular Arrays and Trim Exposures (GRATE), Title: COmpact Ultra-stable Gyro for Absolute Reference (COUGAR), Title: Scalable Millimeter-wave (MMW) Architectures for Reconfigurable Transceivers (SMART), Title: Optical & RF Combined Link Experiment (ORCLE), Title: Adaptable Navigation Systems (ANS), Title: Visibuilding, Title: Military Imaging and Surveillance Technology (MIST), Title: Multifunction RF, Title: Video-rate Synthetic Aperture Radar (ViSAR), Title: Advanced Airborne Optical Sensing, Title: Autonomous Real-time Ground Ubiquitous Surveillance (ARGUS), Title: Multi-Sensor Exploitation, Title: Foliage Penetrating Radar Planning and Exploitation ISN: Project 1.1.1: Hybrid Quantum Dot-Based Imagers and Emitters with Broadly Tunable Spectral Characteristics, Project 1.2.1: Graphene Devices for Next-Generation Night Vision Systems, Project 1.3.1: Nanostructured Hybrid Interfaces, Project 1.3.2: Responsive Surface Texturing and Coloring, Project 1.3.3: Enabling Architectures and Technologies for Next-Generation Fiber Devices, Project 1.4.1: Tailored Nano-particles for Obscurant Applications, Project 2.1.1: Nanotechnology for Stimulating, Sampling, and Monitoring Immunity, Project 2.2.1: Rapid Reconstitution Packages of Lyophilized Medicines, Project 2.3.1: Nano-structured Biomaterials for Treatment of Hemorrhagic Shock, Project 2.3.2: Multi-component Nanolayer Assemblies for Soldier Wound Healing, Project 2.3.3: Delivery of Brain Lipid Nanoparticles Using Microtech Devices for Treatment of Traumatic Brain Injury, Project 2.3.4: Complementary Wound-Healing Strategies Enabled by Synthetic Biology and Nanotechnology, Project 3.1.1: Nanocomposite Metamaterial Architectures for Guiding Energy Dissipation & Wave Propagation Project 3.2.1: Layered /Graded Nanocrystalline & Superelastic-Fiber Alloys for Lightweight Protection, Project 3.3.1: Blast-Induced TBI — Connections Among the Physical, Biological, and Behavioral Dimensions, Project 3.3.2: Electromechanical Interactions in Blast-Induced Traumatic Brain Injury, Project 3.3.3: Molecular to Macroscale Exploration of Fundamental Properties of Gels, Project 3.3.4: Predictive Multi-scale Deformation and Injury of Soft Tissues, Project 3.4.1: Advanced Computational Tools for Multi-scale Modeling and Simulation of Multi-Threat Protective Systems, Project 3.4.2: High-Performance Woven Fabrics & Woven Reinforced Composites for Soldier Protective Systems, Project 3.5.1: Biological and Bio-inspired Reconfigurable Flexible & Protective Joints, Project 3.5.2: Design and Synthesis of Carbon-based Chainmaille Structures for Flexible, Ultra-lightweight Protection, Project 4.1.1: Graphene Sensing for Detection of Foodborne and Other Pathogens, Project 4.1.2: Resistivity-Based Microfluidic Biosensing, Project 4.1.3: Rugged, High Sensitivity Integrated Photonic Chemical Sensing, Project 4.1.4: Molecular Recognition Using Carbon Nanotube Adsorbed Polymer and Bio-Polymer Phases — Synthetic Nanotube Templated Antibodies, Project 4.2.1: Chem-Bio Analyte Sensing with Hybrid Quantum Dot Constructs, Project 5.1.1: Ferroelectric Acoustic Fibers, Project 5.1.2: Resistivity-Based Microfluidic Biosensing, Project 5.1.3: Rugged, High Sensitivity Integrated Photonic Chemical Sensing, Project 5.1.4: Molecular Recognition Using Carbon Nanotube Adsorbed Polymer and Bio-Polymer Phases — Synthetic Nanotube Templated Antibodies, Project 5.2.1: Multifunctional Integrated Fabrics, Project 5.2.2: Enabling Novel Lightwave Phenomena, Project 5.2.3: Spatial Awareness Around Corners, Project 5.3.1: Novel Thermal Radiation Management Using Advanced Photonic Crystals NRL: Nanofilaments: Interfacial, Interactions, Manipulation and Assembly, Directed Self-Assembly of Biologically-Based Nanostructures, Chemical Templates for Nanocluster Assembly, Assembly of Laterally Coupled Molecular Nanostructures, Organic and Biologically Conjugated Luminescent Quantum Dots, Nanoscale-Enhanced Processes in a Quantum Dot Structures, Nano-Engineered Photovoltaic Devices, Integration of Nanostructured Light Emitting Devices, Coherence, Correlation and Control in Nanostructures, Nanocluster Electronics by Macromolecular Templating, Neural-Electronic Interfaces, Nanoscale Measurement Techniques, Nanochemical Resonators and Advanced Nanodynamics NSRDC: Polymer Nanocomposites for Packaging Applications, Antimicrobial Technologies for the Warfighter, Development of Nonwoven Fabrics for Military Applications, Polymer based lighting, Advanced Lightweight Chemical/Biological Protection Based on the Use of Selectively Permeable Membranes, Electro-Textiles for Future Soldier Systems, Electro-Textiles Integration of Computers and Electronics with Textiles for Future Warrior Systems, Next Generation Solar Cells for Lightweight Conformal and Renewable Power, Smart materials for chemical sensing, Super-oleophobic coatings for non-stick, self-cleaning textiles, ALR: A Nanosensor for Explosives Detection Based on Molecularly Imprinted Polymers (MIPs) and Surfaced-enhanced Raman Scattering (SERS), Altering Plasmonic Nanoparticle Size Through Thermal Annealing for Improved Photovoltaic Devices, Application of Conductive Carbon Nanotube Fibers and Composites: Gas Sensor, Biomimetic Approach to Solar Cells Based on TiO2 Nanotubes, Carbon Nanotube Based Flexible Supercapacitors, Carbon Nanotube and Graphene Based Supercapacitors: Rationale, Status, and Prospects, Carbon Nanotube/Graphene Supercapacitors Containing Manganese Oxide Nanoparticles, Decontamination of Chemical Agent Simulant by Nanometal Oxides, Developing NanoFoil-Heated Thin-Film Thermal Battery, Development of Nanoenergetic Micro-fluidic Jet Injectors, Differential Amplifier Circuits Based on Carbon Nanotube Field Effect Transistors (CNTFETs), Effects of Differing Carbon Nanotube Field-effect Transistor Architectures, Embedded Carbon Nanotube Networks for Damage Precursor Detection, Engineered Nano-bio Hybrid Electronic Platform for Solar Energy Harvesting, Evaluation of Carbon Nanotube Thin Films for Optically Transparent Microwave Applications Using On-Wafer Probing of Corbino Disc Test Structures, Excitation Spectroscopy of Er3+-doped α-Al2O3 Nanopowder and Ceramic, Exploiting Polymer Nanomaterials Technology for the U.S. Army's Objective Force, Fabrication and Characterization of Schottky Diodes using Single Wall Carbon Nanotubes, Formation and Characterization of Gold Nanoparticles, Functional Nanostructures for Induction Heating: A Review of Literature and Recommendations for Research, Graphene-based Nanoelectronics, Graphene-based Nanoelectronics (FY11), Green Nanochemistry Approach to Titanium Dioxide Nanoparticle, Dye-Sensitized Solar Cells, High Efficiency c-Silicon Solar Cells Based on Micro-nanoscale Structure, Improving Microbolometric Response using Carbon Nanotubes, Interactions of Organic Surfactants With Oxide Nanoparticles Grown in Aqueous Environments, Magnesium Nanocomposites: Current Status and Prospects for Army Applications, Lightweight, Durable Army Antennas Using Carbon Nanotube Technology (Final Report), Nanoengineered Additives for Active Coatings, Multifunctional Structural-Energy Storage Nanocomposites for Ultra Lightweight Micro Autonomous Systems (First-year Report), Nanomagnetic – metallic Nanoparticles Filled Carbon Nanotubes, Nanoscale Piezoelectric Energy Harvesting, Reactive Nanocomposites for Controllable Adhesive Debonding, Real-Time Intelligent Chemical and Biological Nanosensors on Flexible Platform, Remote Interrogation and Powering of a Spin Torque Nano-oscillator for Standoff Sensing, Self Assembled, Ultra-Hydrophobic Micro/Nano-Textured Surfaces, Silicon-nanocrystal Optoelectronic Kerr Effect for Complementary Metal-oxide Semiconductor (CMOS) Compatible Optical Switching, Spin Torque Nano Oscillators as Potential Terahertz (THz) Communications Devices, Synthesis, Characterization, and Application of Gold Nanoparticles in Green Nanochemistry Dye-Sensitized Solar Cells, Tunable TiO2 Nanotube Arrays for Flexible Bio-Sensitized Solar Cells, Targeting Biological Sensing with Commercial SERS Substrates, Zinc Oxide (ZnO) Nanobridge-based Sensor Platform and Functionalization for Explosive Sensing, Metal-Insulator-Metal Diode Process Development for Energy Harvesting Applications, Plasmonic Paper as a Highly Efficient SERS Substrate, Enabling Technologies for Point and Remote Sensing of Chemical and Biological Agents Using Surface Enhanced Raman Scattering (SERS) Techniques. 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