Positional Camera And Gps Data Interchange Device: Fill & Download for Free

Here is a list. I can add million more but it is immaterial. Best solution would be go to any IEEE conference home page (search IEEE events, Asia, India) , find “Call for papers” section and you may get some ideas as what to work with. Control System (vast) is my favorite domain.IEEE Seminar Topics Electronics CommunicationAnthropomorphic Robot hand: Gifu Hand IIANN for misuse detectionAdaptive Optics in Ground Based TelescopesMicrobivoresElectronic Toll CollectionElectronic Counter-CountermeasuresBarcodesAudio SpotlightingSilicon MemoryArm Based Embedded Web ServerMultipurpose RobotRoad Light GatewayPolytronicsInfrared Plastic Solar CellSolar Mobile ChargerPaper BatteryEasy-To-Swallow Wireless TelemetryBio BatterySolar TreeiMouseStratelliteMedical MirrorAntHocNetIVY BridgeBump TechnologySteganalysisSurface Mount TechnologyHawkEyeAdvances in Magnetic Field SensorsAcoustic Echo Cancellation8K High Resolution Camera SystemHigh Speed Packet Access HSPAMobile Train Radio CommunicationFace Recognition Using Neural NetworkData LoggersConcentrating CollectorsBluetooth Network SecurityArtificial Intelligence In Power StationEmbedded System in AutomobilesThird Generation Solid State DrivesSecurity In Embedded SystemsSecuring Underwater Wireless Communication NetworksSecure Electronic Voting System Based on Image SteganographyLunar Reconnaissance Orbiter Miniature RF Technology DemonstrationBubble PowerVehicle-to-Grid V2GE-WasteSuper CapacitorSmart AntennaBlack-BoxAdaptive Missile Guidance Using GPSAutonomous Underwater VehicleHydrogen Super HighwaySilicon on PlasticBlueStarIntervehicle CommunicationIntelligent Wireless Video CameraImage Coding Using Zero Tree WaveletHuman-Robot InteractionWireless LAN SecuritySmart Note TakerEmbedded Web TechnologyElectrooculographyDistributed COMRemote Access ServiceWireless Charging Of Mobile Phones Using Microwaves3-Dimensional PrintingHumanoids RoboticsTransparent ElectronicsThermographySurface Plasmon ResonanceMicrowave SuperconductivityMemristorEarthing transformers For Power systemsDirect Current MachinesOptical EthernetDD Using Bio-roboticsClos Architecture in OPS4G Wireless SystemsWearable Bio-SensorsPoly FuseNon Visible ImagingNuclear Batteries-Daintiest DynamosMILSTD 1553BMicro Electronic PillMOBILE IPv6Chip MorphingChallenges in the Migration to 4GCANBIT for Intelligent system designA 64 Point Fourier Transform ChipAluminum Electrolytic CapacitorsIBOC TechnologyHoneypotsImmersion LithographyGrating Light Valve Display TechnologyFractal AntennasHART CommunicationE-TextilesElectro Dynamic TetherFPGA in SpaceDV Libraries and the InternetCo-operative cache based data access in ad hoc networksMesh TopologyMesh RadioMetamorphic RobotsLow Energy Efficient Wireless Communication Network DesignIndoor GeolocationWireless DSLWireless MicroserverUser Identification Through Keystroke BiometricsUltrasonic MotorVirtual Retinal DisplaySpectrum PoolingSignaling SystemUltra ConductorsSelf Phasing Antenna ArrayRole of Internet Technology in Future Mobile Data SystemService Aware Intelligent GGSNPush TechnologyGMPLSFluorescent Multi-layer DiscCompact peripheral component interconnect (CPCI)DataloggerWideband Sigma Delta PLL ModulatorVoice morphingVISNAVSpeed Detection of moving vehicle using speed camerasOptical SwitchingOptical Satellite CommunicationOptical Packet Switching NetworkSATRACKCrusoe ProcessorRadio Frequency Light SourcesQoS in Cellular Networks Based on MPTProject OxygenPolymer MemoryNavbelt and GuidicaneMultisensor Fusion and IntegrationMOCTMobile Virtual Reality ServiceSmart Pixel ArraysAdaptive Blind Noise SuppressionAn Efficient Algorithm for iris patternAnalog-Digital Hybrid ModulationArtificial Intelligence Substation ControlSpeech Compression - a novel methodClass-D AmplifiersDigital Audio's Final Frontier-Class D AmplifierOptical Networking and Dense Wavelength Division MultiplexingOptical Burst SwitchingBluetooth Based Smart Sensor NetworksLaser CommunicationsCorDECTE-IntelligenceWhite LEDCarbon Nanotube Flow SensorsCellular PositioningIontophoresisDual Energy X-ray AbsorptiometryPervasive ComputingPassive Millimeter-WaveRAIDHolographic Data StorageOrganic DisplaySymbian OSOvonic Unified MemorySpintronicsE-CommerceBio-Molecular ComputingCode Division DuplexingOrthogonal Frequency Division MultiplexingUtility FogVLSI ComputationsTunable LasersHAAPSDaknetDigital Light ProcessingFree Space Laser CommunicationsMillipedeDistributed Integrated CircuitsAC Performance Of NanoelectronicsHigh Performance DSP ArchitecturesFinFET TechnologyStream ProcessorGPRSFree Space OpticsFDDIE-NoseEmbryonics Approach Towards Integrated CircuitsEmbedded Systems and Information AppliancesElectronic Data InterchangeDSP ProcessorDirect to Home Television (DTH)Digital Subscriber LineDigital HUBUBCrusoeBio-metricsAugmented RealityAsynchronous Transfer ModeArtifical EyeAI for Speech RecognitionTreating Cardiac Disease With Catheter-Based Tissue HeatingSurround Sound SystemSpace Time Adaptive ProcessingReal Time System InterfaceRadio Frequency Identification (RFID)Quantum Dot LasersPlasma AntennasOrganic Light Emitting DiodeNarrow Band & Broad Band ISDNNanotechnologyLed WirelessLaser Communication SystemsJosephson JunctionIntroduction to the Internet ProtocolsImagineCellular CommunicationsHeliodisplayOptical MouseTime Division Multiple AccessElement Management SystemExtended Markup LanguageSynchronous Optical NetworkDig WaterCRT DisplaySatellite Radio TV SystemRoboticsWireless Application ProtocolSynchronous Optical NetworkingCellular RadioOptic Fibre CableInfinite Dimensional Vector SpaceLow Voltage Differential SignalPlasma DisplayGPRSLandmine Detection Using Impulse Ground Penetrating RadarNRAMGSMWireless Intelligent NetworkIntegrated Voice and DataMEMSSmart QuillAutomatic Number Plate RecognitionOptical CamouflageSmart FabricsJava RingInternet Protocol TelevisionFireWireNight Vision TechnologyRD RAMImplementation Of Zoom FFT in Ultrasonic Blood Flow AnalysisMilitary RadarsModern Irrigation System Towards FuzzySmart Cameras in Embedded SystemsSpin Valve TransistorMoletronics- an invisible technologyLaser CommunicationsSolar Power SatellitesMIMO Wireless ChannelsFractal RobotsStereoscopic ImagingUltra-WidebandHome NetworkingDigital CinemaFace Recognition TechnologyUniversal Asynchronous Receiver TransmitterAutomatic Teller MachineWavelength Division MultiplexingObject Oriented ConceptsFrequency Division Multiple AccessReal-Time Obstacle AvoidanceDelay Tolerant NetworkingEDGEPsychoacousticsInteger Fast Fourier TransformWorldwide Inter operatibility for Microwave AccessCode Division Multiple AccessOptical Coherence TomographySymbian OSHome NetworkingGuided MissilesAC Performance Of NanoelectronicsAcousticsBiCMOS technologyFuzzy based Washing MachineLow Memory Color Image Zero Tree CodingStealth FighterBorder Security Using Wireless Integrated Network SensorsA Basic Touch-Sensor Screen SystemGSM Security And EncryptionDesign of 2-D Filters using a Parallel Processor ArchitectureSoftware-Defined RadioSmart DustAdaptive Blind Noise SuppressionAn Efficient Algorithm for iris patternSignificance of real-time transport Protocol in VOIPStorage Area NetworksQuantum Information TechnologyMoney Pad, The Future WalletRobotic SurgerySwarm intelligence & traffic SafetySmart cardCellular Through Remote Control SwitchTerrestrial Trunked RadioHVACElectronics Meet Animal BrainsSatellite RadioSearch For Extraterrestrial IntelligenceLine-Reflect-Reflect TechniqueLow Power UART Design for Serial Data CommunicationLight emitting polymersCruise Control DevicesBoiler Instrumentation and ControlsSPECTSensors on 3D DigitizationAsynchronous ChipsOptical packet switch architecturesDigital Audio BroadcastingCellular Neural NetworkFRAMWireless FidelitySynthetic Aperture Radar SystemTouch ScreensTempest and EchelonVoCableData Compression TechniquesFractal Image CompressionComputer Aided Process PlanningSpace Shuttles and its AdvancementsSpace RoboticsWelding RobotsSensotronic Brake ControlMobile IPPower System ContingenciesLightning Protection Using LFAMWideband Sigma Delta PLL ModulatorBioinformaticsExtreme Ultraviolet LithographyAnimatronicsMolecular ElectronicsCellonics TechnologyCellular Digital Packet DataCT ScanningContinuously variable transmission (CVT)High-availability power systems Redundancy optionsIGCTIris ScanningISO Loop magnetic couplersLWIPImage Authentication TechniquesSeasonal Influence on Safety of Substation GroundingWavelet transformsCyberterrorismIpv6 - The Next Generation ProtocolDriving Optical Network EvolutionRadio Network ControllerWireless Networked Digital Devices3- D IC'sSensors on 3D DigitizationFuzzy LogicSimputerWavelet Video Processing TechnologyIP TelephonyRPRPH Control Technique using Fuzzy LogicMultisensor Fusion and IntegrationIntegrated Power Electronics ModuleHigh Speed Packet AccessGMPLS

My former R&D management experience has kept me in touch with the R&D community and I often hear about or am asked to evaluate R&D proposals or early prototypes. Since they are not yet deployed or operational in this early stage, they are not yet classified as top secret - however, several of those that I have reviewed have later become classified. This is one that I predict will become one of those and will soon disappear behind a black project curtain until it reappears as issued combat equipment.DARPA Executive SummaryTheme: This proposed design offers to move the best of a combat sniper’s skills and capability into the same degree of automation that has been realized with pilots in using UAV’s.Problem addressed: Small arms (up to .50 caliber) accuracy falls off rapidly beyond 300 meters without extensive training of a limited number of sharpshooters with innate ability. The growth in demand for high quality snipers on multiple weapons exceeds the supply.Benefits: Highly skilled snipers have proven to be force multipliers and well-camouflaged snipers can create confusion and fear out of all proportion to their number. New weapon and bullet designs allow for lethal ranges for small arms out to 6,000 meters or more but are mostly beyond the capability of the shooters to accurately aim and hit at those distances.Technology: Pin-point accuracy at distances beyond 1000 meters requires a complex resolution and consideration of multiple variables, however, all of these variables can be quantitatively measured or known and precisely computed with the introduction of readily available current technology. This proposed design uses short range (5 miles) data transceivers, laser range finders, laptop computers, and various servo-mechanical devices in an integrated system that can quickly adapt to a variety of small arms weapons.Systems Design: This proposed design consists of four modules plus one or more interchangeable weapons in an integrated digital rifle system (DRS)Weapon: The weapon can be any high precision, ballistic small arms that can be man-transportable. Typically, a Barrett M82A3 or similar rifle but the system can be quickly and easily adapted to other weapons and munitions such as the XM25 CDTE, Roufoss Mk211 and other recoilless rifles, shoulder-launched rockets and urban assault weapons as well as systems such as the Hydra 70/M200 and various grenade launchers. It also is ideal for use with a rail-gun. The only critical aspect of the weapon selection is shot-to-shot consistency using the same ammo.The four modules are:1. Network Interlink: All modules are interlinked by a modulated laser and by multi-channel data transceivers using a frequency agile spread spectrum with redundant, hand-shake data transmission. Every module sends multiple sensory data including its own GPS coordinates to all other modules in a synergistic compounding of accumulated data and imagery.2. Sensor Network: Each module and each deployed autonomous information sensor (AIS) sends back data on all aspects of atmospheric conditions, target data and audio monitoring. The AIS’s are low profile 15” x 1” tubes that are surreptitiously shot into place to send back data to the CPU. The tamper-proof AIS’s look like rods or sticks but have battery powered, RF and laser transceivers that last for up to 10 days and then they self-destruct. The AIS’s are shot (launched) at night in a near vertical trajectory so that they descend straight down and are designed to inconspicuously penetrate into rooftops, hard soil and other surfaces. Ideally, there would be at least one AIS every 200-300 yards between the DRS weapon and any possible targets, however, an unlimited number of AIS’s can be deployed.3. Visual Acquisition: One or more video camera sights (VCS) are placed around the target zone. Each VCS uses a high precision optical sighting lens feeding a high resolution image capture camera. The VCS has wide angle and telescopic capabilities and can pan and tilt to acquire targets. Each VCS can use visible, IR or UV light filters as well as being directed to a target by other VCS’s and/or sounds from AIS’s or coordinates from GPS’s from other modules. Each VCS communicates via laser beam and RF transceivers to precisely locate themselves in relation to all other visible modules and to the CPU. The VCS also uses lasers and optical sighting to precisely locate themselves in relation to the targets and the weapon. The VCS uses lasers to locate and precisely measure distances to each AIS sensor by detecting specific passive reflected patterns. The visual images from any one VCS can be displayed on the GUI of the CPU or a interpolated rendering of the image area can be projected. The VCS’s can be up to 4,000 meters from the center of the target zone and from each other and up to 6,000 meters from the CPU and DRS weapon – defining a target zone of up to 3.5 miles in diameter. Ideally, at least three VCS’s are deployed in a triangle around the target zone but up to six can be used. With the proper interface, a VCS can also be placed in a UAV.4. CPU: All the sensory data from the AIS’s and all the visual and distance data from the VCS’s is communicated to a central processor (laptop computer) that is preprogrammed with all of the ballistic data from the weapon or weapons being used – similar to an advanced version of an optical Barrett BORS ballistic computer. Using the AIS and VCS inputs, the CPU can compute a precise trajectory from the weapon to the target by defining the required aim point based on inputted, computed data and weapon and ammo capability. The CPU also can render a live 3-D version of the target zone to include perspectives that are not available to the operator/shooter. The presentation of this information is provided by the Graphic User’s Interface (GUI).Graphic User Interface: The GUI consists of a mix of live and computer generated images and graphics that can be viewed on the CPU’s screen or viewed using a pair of 3-D goggle-mounted screens (similar to commercial units) that gives the operator/shooter the ability to pan and zoom to any perspective that can be observed, rendered or extrapolated from the VCS image data. Using a handheld joystick, he can move a crosshair onto anything he can see. If the DSR CPU computes that the currently selected weapon, bullet and placement combination allows for the selected target to be hit, the crosshair is green. If the target can be hit with a change in ammo, such as changing from FMJ to a Roufoss Mk211 round, then the crosshair is yellow and the recommended change is highlighted on the screen. If the DRS system determines that the selected target cannot be hit with the current weapon placement, then the crosshair is red. If other DRS weapons are networks, the GUI will highlight any that have a green or yellow target status.Digital Rifle System Enhancements:The DRS can be expanded in a number of ways that improve its range, coverage, accuracy, target lethality and survivability:The GPS assemblies in each module of the DRS allow the CPU to effectively overlay a targeting and reference grid over the entire target area. The grid squares are as small as the precision of the GPS reception will allow but would probably be no greater than about 1 square yard. All modules are interlinked and referenced to this grid. The DRS weapons and the VCS modules can be directed to aim or look at any given grid square by the operator, CPU or other modules.Placement of multiple DRS weapons interlinked into a common network of VCS and AIS modules will allow acquisition of multiple targets. If different weapons are used - Barrett M82A3, XM25, Hydra 70/M200 other recoilless rifles, shoulder-launched rockets and urban assault weapons or a rail-gun – then amuch broader range of targets can be acquired – vehicles, tanks, aircraft, communications equipment, buildings as well as combatants.The AIS modules can be launched into place or placed by special forces. The intent is to make them appear to be as inconspicuous as possible. They can be disguised in a variety of forms including bricks, wood, shingles, etc. The more AIS modules deployed, the more accurate the environmental data collected and the more accurate the sighting and shooting.The VCS modules can be disguised and/or hidden among rocks, plants or debris. The actual unit is quite small – about the size of a cell phone with an appendage to extend and precisely control the aiming of the lens/camera assembly. Using high quality fiber optics and a small directional lens head, the VCS can even be buried or completely hidden inside containers, buildings or other wreckage. Long term deployment can be enhanced by using a small solar panel to charge the VCS.The VCS modules can use IR or UV or other light filters to assist in the acquisition of targets and to distinguish camouflaged targets. Any given VCS can be directed to focus on any specific grid square as defined by the operator or CPU. Each VCS has the ability to use a laser range finder to scan and measure distances to targets, objects or the entire visual range of the VCS. This data is then used to create an artificial 3-D rendering of the target area that allows the operator to explore in a virtual reality (VR) 3-D representation of the target zone using his binocular 3-D headset. This 3-D rendering can also be selectively artificially colored to show what areas can be targeted with a high confidence of kill using the pale shades of green, yellow and red described earlier for the GUI.The 3-D rendering of the target zone includes images of areas that are not visually apparent to the weapon, the operator and/or to some of the VCS modules. This ability to see a composite of inputs from all the modules also allows the possibility to acquire and shoot targets that are behind walls, inside buildings or otherwise hidden from the visual perspective of the DRS weapons but are within its ability to kill or destroy the target. This includes sighting distant targets that can be hit by using the arching of the bullet trajectory to clear the intervening object. Given sufficient inputs from intermediate AIS modules, targets are the extreme lethal range of the weapons can be targeted – 6,000 yards, in the case of the Barrett M82A3.The VCS’s can also be directed into a near automatic mode by selecting a motion-activated mode that will scan a specific and defined grid area and automatically lock-on the DRS weapon to a kill shot onto anyone moving within that grid. The target would be tracked as it moved and a continuously changing trajectory and aim point. The target can be defined by motion, IR signature, color, size, or shape. This mode would then await the input from the operator to fire the weapon.MicroEncapsulated Tags (METs),As the inventor of the microencapsulated tags (METs), there is a simple and easy interface with the DRS and METs. MET’s are micro-spheres (less than 1 mm in dia.) that are coated and color coded to react only to specific surfaces and materials. Using METs, it is possible to tag specific equipment, vehicles, weapons or people so that targets can be positivily confirmed as being combatant. METs also make camouflage of any kind completely obsolete and it opens the door for all kinds of possibilities. For instance, a completely automatic DRS sniper rifle that can autonomously fire at targets that have been precisely verified as enemy combatants using METs. It can prioritize targets by their threat level.METs also allow the use of Exacto rounds (Extreme Accuracy Tasked Ordnance) currently being developed by Teledyne. Currently laser guided bullets are the focus of the guided bullet program butusing MET’s, the bullet could be guided by the target – no matter how the target moves. The use of microencapsulated tags (METs) can be integrated into the laser scanners and optical cameras of the VCS’s and the rifle. The rifle can now spot and lock onto a single MET that has been identified by any of the VCS’s or the rifle’s system. The MET appears as a tiny colored flashing pixel in the shooter’s 3D glasses. The color indicates the material being identified by the MET. It also pops up as a text label when he positions the red dot over the flashing pixel. This now allows for very precise aiming under total darkness and when IR is not effective.Technology Utilized: The DRS system primarily makes use of pre-existing technology making the need for extensive R&D a minimum requirement for full development. Specifically:The DRS weapon is, in all cases, an off-the-shelf weapon that has minimal adaptations for mounting the scope and aiming mechanism.Most of the rest of the equipment is adapted from currently available or very similar capability equipment that is already on the market. These include:MAARS - an Army weapons system that uses robotic, autonomous gun movement and aiming systems. This is a mobile version of the DRS which makes the aiming less precise and it uses fewer input sensors. MAARS® | QinetiQ North AmericaRedOwl – from Insight Technology, NH, a laptop connected robot that provides precision aiming data using audio and visual and GPS sensors and uses lasers to detect and provide aiming data for targets up to 3,000 feet away. http://www.cs.uml.edu/~holly/colloquia/REDOWL-media-to-10-7-05.pdfARSS – The autonomous Rotorcraft Sniper System (ARSS) also is a mobile rifle and aiming platform using remote operator aiming. It is less precise that the MAARS but incorporates some of the DRS technology. The ARSS system moved behind the black curtain of classified R&D as they incorporated the technology into the DRS. Autonomous Rotorcraft Sniper System - WikipediaA completely autonomous aiming and firing system has been developed and is incorporated into the DRS but legal. political and social pressures have prevented it use without an operator controlling the final kill decision. Much of the technology is similar to the TrackPoint system but with more precision input variables and aiming mechanics. This system also refines the matchup between what the CPU computed aimpoint position is relative to the precision of the aiming servos and platform to exactly match that aimpoint.....and other classified systems.Take this expose for what it is worth since there is no way to validate or confirm it is now or ever will be an operational weapon system….however, Note: Patents and other safeguards exist on all of this system and its components. DARPA has received this proposal along with a detailed design under their Broad Agency Announcement (BAA) solicitation. https://baa.darpa.mil/my.policy

Final Year Seminar Topics For Electronics [1]Free space opticsFDDIE-noseEmbryonics Approach Towards Integrated CircuitsPhonetElectronic Toll CollectionMicrobivoresElectronic Counter-CountermeasuresBarcodesAudio SpotlightingBrain GateBrain ChipsSilicon MemoryArm Based Embedded Web ServerMultipurpose RobotRoad Light GatewayPolytronicsInfrared Plastic Solar CellSolar Mobile ChargerPaper BatteryBio BatterySolar TreeiMouseEasy-To-Swallow Wireless TelemetryStratelliteMedical MirrorAntHocNetIVY BridgeBump TechnologySteganalysisSurface Mount TechnologyHawkEyeAdvances in Magnetic Field SensorsAcoustic Echo Cancellation8K High Resolution Camera SystemHigh Speed Packet Access HSPAMobile Train Radio CommunicationFace Recognition Using Neural NetworkData LoggersConcentrating CollectorsBluetooth Network SecurityArtificial Intelligence In Power StationEmbedded System in AutomobilesThird Generation Solid State DrivesSecurity In Embedded SystemsSecuring Underwater Wireless Communication NetworksSecure Electronic Voting System Based on Image SteganographyLunar Reconnaissance Orbiter Miniature RF Technology DemonstrationBubble PowerVehicle-to-Grid V2GE-WasteSuper CapacitorSmart AntennaBlack-BoxAdaptive Missile Guidance Using GPSAutonomous Underwater VehicleHydrogen Super HighwaySilicon on PlasticBlueStarIntervehicle CommunicationIntelligent Wireless Video CameraImage Coding Using Zero Tree WaveletHuman-Robot InteractionWireless LAN SecuritySmart Note TakerEmbedded Web TechnologyElectrooculographyDistributed COMRemote Access ServiceWireless Charging Of Mobile Phones Using Microwaves3-Dimensional PrintingHumanoids RoboticsTransparent ElectronicsThermographySurface Plasmon ResonanceMicrowave SuperconductivityMemristorEarthing transformers For Power systemsDirect Current MachinesOptical EthernetDD Using Bio-roboticsClos Architecture in OPS4G Wireless SystemsWearable Bio-SensorsPoly FuseNon Visible ImagingNuclear Batteries-Daintiest DynamosMILSTD 1553BMicro Electronic PillMOBILE IPv6Chip MorphingChallenges in the Migration to 4GCANBIT for Intelligent system designA 64 Point Fourier Transform ChipAnthropomorphic Robot hand: Gifu Hand IIANN for misuse detectionAdaptive Optics in Ground Based TelescopesAluminum Electrolytic CapacitorsIBOC TechnologyHoneypotsImmersion LithographyGrating Light Valve Display TechnologyFractal AntennasHART CommunicationE-TextilesElectro Dynamic TetherFPGA in SpaceDV Libraries and the InternetCo-operative cache based data access in ad hoc networksMesh TopologyMesh RadioMetamorphic RobotsLow Energy Efficient Wireless Communication Network DesignIndoor GeolocationWireless DSLWireless MicroserverUser Identification Through Keystroke BiometricsUltrasonic MotorVirtual Retinal DisplaySpectrum PoolingSignaling SystemUltra ConductorsSelf Phasing Antenna ArrayRole of Internet Technology in Future Mobile Data SystemService Aware Intelligent GGSNPush TechnologyGMPLSFluorescent Multi-layer DiscCompact peripheral component interconnect (CPCI)DataloggerWideband Sigma Delta PLL ModulatorVoice morphingVISNAVSpeed Detection of moving vehicle using speed camerasOptical SwitchingOptical Satellite CommunicationOptical Packet Switching NetworkSATRACKCrusoe ProcessorRadio Frequency Light SourcesQoS in Cellular Networks Based on MPTProject OxygenPolymer MemoryNavbelt and GuidicaneMultisensor Fusion and IntegrationMOCTMobile Virtual Reality ServiceSmart Pixel ArraysAdaptive Blind Noise SuppressionAn Efficient Algorithm for iris patternAnalog-Digital Hybrid ModulationArtificial Intelligence Substation ControlSpeech Compression - a novel methodClass-D AmplifiersDigital Audio's Final Frontier-Class D AmplifierOptical Networking and Dense Wavelength Division MultiplexingOptical Burst SwitchingBluetooth Based Smart Sensor NetworksLaser CommunicationsCorDECTE-IntelligenceWhite LEDCarbon Nanotube Flow SensorsCellular PositioningIontophoresisDual Energy X-ray AbsorptiometryPervasive ComputingPassive Millimeter-WaveRAIDHolographic Data StorageOrganic DisplaySymbian OSOvonic Unified MemorySpintronicsE-CommerceBio-Molecular ComputingCode Division DuplexingOrthogonal Frequency Division MultiplexingUtility FogVLSI ComputationsTunable LasersHAAPSDaknetDigital Light ProcessingFree Space Laser CommunicationsMillipedeDistributed Integrated CircuitsAC Performance Of NanoelectronicsHigh Performance DSP ArchitecturesFinFET TechnologyStream ProcessorGPRSEmbedded Systems and Information AppliancesElectronic Data InterchangeDSP ProcessorDirect to Home Television (DTH)Digital Subscriber LineDigital HUBUBCrusoeBio-metricsAugmented RealityAsynchronous Transfer ModeArtifical EyeAI for Speech RecognitionTreating Cardiac Disease With Catheter-Based Tissue HeatingSurround Sound SystemSpace Time Adaptive ProcessingReal Time System InterfaceRadio Frequency Identification (RFID)Quantum Dot LasersPlasma AntennasOrganic Light Emitting DiodeNarrow Band & Broad Band ISDNNanotechnologyLed WirelessLaser Communication SystemsJosephson JunctionIntroduction to the Internet ProtocolsImagineCellular CommunicationsHeliodisplayOptical MouseTime Division Multiple AccessElement Management SystemExtended Markup LanguageSynchronous Optical NetworkDig WaterCRT DisplaySatellite Radio TV SystemRoboticsWireless Application ProtocolSynchronous Optical NetworkingCellular RadioOptic Fibre CableInfinite Dimensional Vector SpaceLow Voltage Differential SignalPlasma DisplayGPRSLandmine Detection Using Impulse Ground Penetrating RadarNRAMGSMWireless Intelligent NetworkIntegrated Voice and DataMEMSSmart QuillAutomatic Number Plate RecognitionOptical CamouflageSmart FabricsJava RingInternet Protocol TelevisionFireWireNight Vision TechnologyRD RAMImplementation Of Zoom FFT in Ultrasonic Blood Flow AnalysisMilitary RadarsModern Irrigation System Towards FuzzySmart Cameras in Embedded SystemsSpin Valve TransistorMoletronics- an invisible technologyLaser CommunicationsSolar Power SatellitesMIMO Wireless ChannelsFractal RobotsStereoscopic ImagingUltra-WidebandHome NetworkingDigital CinemaFace Recognition TechnologyUniversal Asynchronous Receiver TransmitterAutomatic Teller MachineWavelength Division MultiplexingObject Oriented ConceptsFrequency Division Multiple AccessReal-Time Obstacle AvoidanceDelay Tolerant NetworkingEDGEPsychoacousticsInteger Fast Fourier TransformWorldwide Inter operatibility for Microwave AccessCode Division Multiple AccessOptical Coherence TomographySymbian OSHome NetworkingGuided MissilesAC Performance Of NanoelectronicsAcousticsBiCMOS technologyFuzzy based Washing MachineLow Memory Color Image Zero Tree CodingStealth FighterBorder Security Using Wireless Integrated Network SensorsA Basic Touch-Sensor Screen SystemGSM Security And EncryptionDesign of 2-D Filters using a Parallel Processor ArchitectureSoftware-Defined RadioSmart DustAdaptive Blind Noise SuppressionAn Efficient Algorithm for iris patternSignificance of real-time transport Protocol in VOIPStorage Area NetworksQuantum Information TechnologyMoney Pad, The Future WalletRobotic SurgerySwarm intelligence & traffic SafetySmart cardCellular Through Remote Control SwitchTerrestrial Trunked RadioHVACElectronics Meet Animal BrainsSatellite RadioSearch For Extraterrestrial IntelligenceLine-Reflect-Reflect TechniqueLow Power UART Design for Serial Data CommunicationLight emitting polymersCruise Control DevicesBoiler Instrumentation and ControlsSPECTSensors on 3D DigitizationAsynchronous ChipsDigital Audio BroadcastingCellular Neural NetworkFRAMWireless FidelitySynthetic Aperture Radar SystemTouch ScreensTempest and EchelonVoCableData Compression TechniquesFractal Image CompressionComputer Aided Process PlanningSpace Shuttles and its AdvancementsSpace RoboticsWelding RobotsSensotronic Brake ControlMobile IPPower System ContingenciesLightning Protection Using LFAMWideband Sigma Delta PLL ModulatorBioinformaticsExtreme Ultraviolet LithographyAnimatronicsMolecular ElectronicsCellonics TechnologyCellular Digital Packet DataCT ScanningContinuously variable transmission (CVT)High-availability power systems Redundancy optionsIGCTIris ScanningISO Loop magnetic couplersLWIPImage Authentication TechniquesSeasonal Influence on Safety of Substation GroundingWavelet transformsCyberterrorismMotesModular Embedded Internet Software SupportModems and ISDNWireless InternetWardrivingUltrasonic TransducersTurbo CodesTrustworthy ComputingTeleportationTamper ResistanceSurround SystemsStealth TechnologySmart DustSmart BombsWhite LED64-Bit Computing3D Audio and Acoustic Environment ModelingE BombsDynamically Reconfigurability ComputingDWDMDVD TechnologyDual Core ProcessorDRM Software RadioDigital Video EditingDigistarCoherent Acoustics Coding SystemCAPTCHABuffer Overflow AttackBlu Ray DiscBlastAn ATM With An EyeAeronautical CommunicationEfficient Implementation Of Cryptographically Useful"Large"Boolean FunctionsInternet Telephony Policy in INDIAHolographic Versatile DiscHandheld ComputersHandfree DrivingFractal Image CompressionReal Time Systems with Linux/RTAIRapid PrototypingPLEDSPivot Vector Space Approach in Audio-Video MixingPhotovoltaicOptical Free Space CommunicationOptical DSPOpaque Networks Utilizing TOSNuclear Micro GeneratorNanoroboticsM-VotingIpv6 - The Next Generation ProtocolDriving Optical Network EvolutionRadio Network ControllerWireless Networked Digital Devices3- D IC'sSensors on 3D DigitizationFuzzy LogicSimputerWavelet Video Processing TechnologyIP TelephonyRPRPH Control Technique using Fuzzy LogicMultisensor Fusion and IntegrationIntegrated Power Electronics ModuleHigh Speed Packet AccessGMPLSFootnotes:[1] Final Year Seminar Topics For Electronics)Follow me if you need any further help,you can also join me on FB ,twitter and Linked in……..I have associated all accounts with this quora profile…. :)