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Updates found with 'hence processing approaches'

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Updates found with 'hence processing approaches'

IEEE 2016 - 2017 Matlab Image Processing TitlesS.No Project Titles 1. Data-driven Soft Decoding of Compressed Images in Dual Transform-Pixel Domain 2. Double-Tip Arte fact Removal from Atomic Force Microscopy Images 3. Quaternion Collaborative and Sparse Representation With Application to Color Face Recognition 4. Multi-Level Canonical Correlation Analysis for Standard-Dose PET Image Estimation 5. Weakly Supervised Fine-Grained Categorization with Part-Based Image Representation 6. Robust Visual Tracking via Convolutional Networks without Training 7. Context-based prediction filtering of impulse noise images 8. Predicting the Forest Fire Using Image Processing 9. A Review Paper on detection of Glaucoma using Retinal Fundus Images 10. Performance Analysis of Filters on Complex Images for Text Extraction through Binarization 11. Automated Malaria Detection from Blood Samples Using Image Processing 12. Learning Invariant Color Features for Person Re-Identification 13. A Diffusion and Clustering-based Approach for Finding Coherent Motions and Understanding Crowd Scenes 14. Automatic Design of Color Filter Arrays in The Frequency Domain 15. Learning Iteration-wise Generalized Shrinkage-Thresholding Operators for Blind Deconvolution 16. Image Segmentation Using Parametric Contours With Free Endpoints 17. CASAIR: Content and Shape-Aware Image Retargeting and Its Applications 18. Texture classification using Dense Micro-block Difference 19. Statistical performance analysis of a fast super-resolution technique using noisy translations 20. Trees Leaves Extraction In Natural Images Based On Image segmentation and generating Its plant details
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IEEE 2016 - 2017 Power Electronics and Power Systems Titles1) Investigation of Negative-Sequence Injection Capability of Cascaded H-Bridge Converters in Star and Delta Configuration2) A Novel Control for a Cascaded Buck Boost PFC Converter Operating in Discontinuous Capacitor Voltage Mode3) A Single-Phase Buck-Boost Matrix Converter with Only Six Switches and Without Commutation Problem4) Adaptive Neuro Fuzzy Inference System Least Mean Square Based Control Algorithm for DSTATCOM5) Average-Value Model of Modular Multilevel Converters Considering Capacitor Voltage Ripple6) LMF Based Control Algorithm for Single Stage Three-Phase Grid Integrated Solar PV System7) Analysis of bi-directional piezoelectric-based converters for zero-voltage switching operation8) A Multi-Level Converter with a Floating Bridge for Open-Ended Winding Motor Drive Applications9) Variable Duty Cycle Control for Quadratic Boost PFC Converter10) Pulse Pattern Modulated Strategy for Harmonic Current Components Reduction in Three-Phase AC-DC Converters11) Practical Layouts and DC-Rail Voltage Clamping Techniques of Z-Source Inverters12) A Low Capacitance Cascaded H-Bridge Multi-Level StatCom13) Impedance networks and its Application in Power for Electric Traction Systems14) Phase Current Balance Control Using DC-Link Current Sensor for Multi-Phase Converters with Discontinuous Current Mode Considered 15) Efficient Single Phase Transformerless Inverter for Grid-Tied PVG System With Reactive Power Control16) Single-Stage High Power Factor Converters Requiring Low DC-Link Capacitance to Drive Power LEDs17) High Efficiency Bi-Directional Converter for Flywheel Energy Storage Application18) Z-Source Resonant Converter with Power Factor Correction for Wireless Power Transfer Applications19) Design of External Inductor for Improving Performance of Voltage Controlled DSTATCOM20) A Single-Switch AC-DC LED Driver Based on a Boost-Flyback PFC Converter with Lossless Snubber21) Control and Analysis of the Modular Multilevel DC De-Icer with STATCOM Functionality22) Combined Phase Shift and Frequency Modulation of a Dual Active Bridge AC-DC Converter with PFC23) Least Power Point Tracking Method for Photovoltaic Differential Power Processing Systems24) Experimental Investigation on a Hybrid Series Active Power Compensator to Improve Power Quality of Typical Households25) Soft Start and Voltage Control of Induction Motors using Floating Capacitor Hbridge Converters26) High Performance Predictive Control of Quasi Impedance Source Inverter27) Analysis of the Integrated SEPIC-Flyback Converter as a Single-Stage Single-Switch Power-Factor-Correction LED Driver28) Matrix Converter Based Active Distribution Transformer29) Universal AC Input High Density Power Adapter Design with a Clamped Series Resonant30) SVM Strategies for Common-Mode Current Reduction in Transformerless Current-Source Drives at Low Modulation Index31) A Single-stage High Frequency Resonant AC/AC Converter32) Analysis and Control of Neutral-Point Voltage for Transformerless Three-Level PV Inverter in LVRT Operation33) A Hybrid-STATCOM with Wide Compensation Range and Low DC-Link Voltage34) A Single-Stage Single-Switch LED Driver Based on Class-E Converter35) Impedance Coordinative Control for Cascaded Converter in Bidirectional Application36) A DC-voltage Controlled Variable Capacitor for Stabilizing the ZVS Frequency of a Resonant Converter for Wireless Power Transfer37) Combined LMS-LMF Based Control Algorithm of DSTATCOM for Power Quality Enhancement in Distribution System38) Interleaved SEPIC Power Factor Pre-Regulator Using Coupled Inductors in Discontinuous Conduction Mode with Wide Output Voltage39) Model Predictive Control Scheme of Five-Leg AC-DC-AC Converter-Fed Induction Motor Drive40) A Virtual RLC Damper to Stabilize DC/DC Converters Having an LC Input Filter while Improving the Filter Performance41) Synchronous Power Controller with Flexible Droop Characteristics for Renewable Power Generation Systems42) A Buck Power Factor Correction Converter with Predictive Quadratic Sinusoidal Current Modulation and Line Voltage Reconstruction43) A Real-time Variable Turn-off Current Strategy for PFC Converter with Voltage Spike Limitation and Efficiency Improvement44) A Common Grounded Z-Source DC-DC Converter with High Voltage Gain45) A Digital Predictive Current Mode Controller for Single Phase High Frequency Transformer Isolated Dual Active Bridge DC to DC Converter46) A High-Voltage Compliant Current-to-Digital Sensor for DC-DC Converters in Standard CMOS Technology47) A New Single-Switch Isolated High-Gain Hybrid Boosting Converter48) A Novel Approach to Generate Effective Carrier-Based Pulsewidth Modulation Strategies for Diode-Clamped Multilevel DC-AC Converters49) A Novel Medium-Voltage Modular Multilevel DC-DC Converter50) A PWM Plus Phase-Shift Controlled Interleaved Isolated Boost Converter Based on Semi-Active Quadrupler Rectifier for High Step-Up Applications51) Analysis and Design of Current-Fed High Step Up PWM Controlled Quasi-Resonant DC-DC Converter for Fuel Cell Applications52) Analysis and Implementation of a Non-Isolated Bidirectional DC-DC Converter with High Voltage Gain53) Capacitor Aging Detection in DC-DC Converter Output Stage54) Derivation of Dual-Switch Step-Down DC/DC Converters with Fault-Tolerant Capability55) Design and Analysis of a High Efficiency DCDC Converter with Soft Switching Capability for Renewable Energy Applications Requiring High Voltage Gain56) Design and Steady State Analysis of Parallel Resonant DC-DC Converter for High Voltage Power Generator57) Digital Control of a High Voltage (2.5 kV) Bidirectional DC-DC Flyback Converter for Driving a Capacitive Incremental Actuator58) Downsizing Effects of Integrated Magnetic Components in High Power Density DC-DC Converters for EV and HEV59) Effective Voltage Balance Control for Bipolar-DC-Bus Fed EV Charging Station with Three-Level DC-DC Fast Charger60) Feed-Forward based Control in a DC-DC Converter of Asymmetric Multistage Stacked Boost Architecture61) High Step-Up/Step-Down Soft-Switching Bidirectional DC-DC Converter with Coupled-Inductor and Voltage Matching Control for Energy Storage Systems62) High-Efficiency Asymmetric Forward-Fly back Converter for Wide Output Power Range63) Isolated Double Step-down DC-DC Converter with Improved ZVS Range and No Transformer Saturation Problem64) Minimum-Current-Stress Scheme of Dual Active Bridge DC-DC Converter with Unified-phase-shift Control65) Model Predictive Control of Capacitor Voltage Balancing for Cascaded Modular DC-DC Converters66) Model Predictive Voltage Control for Single Inductor Multiple-Output DC-DC Converter with Reduced Cross Regulation67) Parasitics Assisted Soft-switching and Secondary Modulated Snubberless Clamping Current-fed Bidirectional Voltage Doubler for Fuel Cell Vehicles68) Stability Analysis and Stabilization methods of DC Microgrid with Multiple Parallel-Connected DC-DC Converters loaded by CPLs69) Steady-State Analysis of Inductor Conduction Modes in the Quadratic Boost Converter70) Suppression of the Peak Harmonics from Loads by Using a Variable Capacitance Filter in Low-Voltage DC/DC Converters71) Topology Derivation and Generalized Analysis of Zero-Voltage-Switching Synchronous DC-DC Converters with Coupled Inductors72) Unified Triple-Phase-Shift Control to Minimize Current Stress and Achieve Full Soft Switching of Isolated Bidirectional DC-DC Converter73) A New Transformerless Buck-Boost Converter With Positive Output Voltage74) Derivation of Dual-Switch Step-Down DC/DC Converters with Fault-Tolerant Capability75) Digital Sensorless Current Mode Control Based on Charge Balance Principle and Dual Current Error Compensation for DC–DC Converters in DCM
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VLSI PROJECTS ABSTRACT 2016 -2017LOW-POWER SYSTEMS FOR DETECTION OF SYMPTOMATIC PATTERNS IN AUDIO BIOLOGICAL SIGNALSABSTRACT: In this paper, we present a low-power, efficacious, and scalable system for the detection of symptomatic patterns in biological audio signals. The digital audio recordings of various symptoms, such as cough, sneeze, and so on, are spectrally analyzed using a discrete wavelet transform. Subsequently, we use simple mathematical metrics, such as energy, quasi-average, and coastline parameter for various wavelet coefficients of interest depending on the type of pattern to be detected. Furthermore, a mel-frequency cepstrum-based analysis is applied to distinguish between signals, such as cough and sneeze, which have a similar frequency response and, hence, occur in common wavelet coefficients. Algorithm-circuit codesign methodology is utilized in order to optimize the system at algorithm and circuit levels of design abstraction. This helps in implementing a low-power system as well as maintaining the efficacy of detection. The system is scalable in terms of user specificity as well as the type of signal to be analyzed for an audio symptomatic pattern. We utilize multiplierless implementation circuit strategies and the algorithmic modification of mel cepstrum computation to implement low power system in the 65-nm bulk Si technology. It is observed that the pattern detection system achieves about 90% correct classification of five types of audio health symptoms. We also scale the supply voltage due to lower frequency of operation and report a total power consumption of ~184 µW at 700 mV supply.
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VLSI PROJECTS ABSTRACT 2016-2017 HIGH-SPEED AND ENERGY-EFFICIENT CARRY SKIP ADDER OPERATING UNDER A WIDE RANGE OF SUPPLY VOLTAGE LEVELS ABSTRACT: In this paper, we present a carry skip adder (CSKA) structure that has a higher speed yet lower energy consumption compared with the conventional one. The speed enhancement is achieved by applying concatenation and incrementation schemes to improve the efficiency of the conventional CSKA (Conv-CSKA) structure. In addition, instead of utilizing multiplexer logic, the proposed structure makes use of AND-OR-Invert (AOI) and OR-AND-Invert (OAI) compound gates for the skip logic. The structure may be realized with both fixed stage size and variable stage size styles, wherein the latter further improves the speed and energy parameters of the adder. Finally, a hybrid variable latency extension of the proposed structure, which lowers the power consumption without considerably impacting the speed, is presented. This extension utilizes a modified parallel structure for increasing the slack time, and hence, enabling further voltage reduction. The proposed structures are assessed by comparing their speed, power, and energy parameters with those of other adders using a 45-nm static CMOS technology for a wide range of supply voltages. The results that are obtained using HSPICE simulations reveal, on average, 44% and 38% improvements in the delay and energy, respectively, compared with those of the Conv-CSKA. In addition, the power–delay product was the lowest among the structures considered in this paper, while its energy–delay product was almost the same as that of the Kogge–Stone parallel prefix adder with considerably smaller area and power consumption. Simulations on the proposed hybrid variable latency CSKA reveal reduction in the power consumption compared with the latest works in this field while having a reasonably high speed.
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