MULTI-SENSOR DATA FUSION TECHNIQUES FOR ENGINE HEALTH MONITORING

Multi-sensor data fusion techniques for Engine health monitoring

An aircraft engine is the component of the propulsion system for an aircraft that generates mechanical power (thrust) that is used to move the aircraft through the air and provides the power for various other functions such as the complete requirements of the vehicle in terms of electrical, hydraulic and pneumatic power for various safety critical subsystems of the vehicle. An aircraft engine is a complex system requiring regular maintenance to ensure flight safety as can be seen from the US Air Force statistics on Aircraft Failure Modes, the engine accounts for the maximum (37%) of the failures under the head ‘Logistics’. Modern aircraft engines incorporate numerous sophisticated devices like sensors for measuring their operating parameters, both in the immediate sense for electronic control of performance and in the longer term, to monitor engine health (Engine Health Monitoring). Multi-Sensor Data Fusion concept can be used to maximize the meaningful information extracted from disparate data sources to obtain enhanced diagnostic and prognostic information regarding the health and condition of the engine. Safety is the utmost priority for the aviation industry so that the aircraft engine must carefully monitored as its failure may cause severe crashes.

 

 

Specifications

 

Facilities where this techniques is used

 

Maor mile stones / results of this technique

Literature Survey

Data Collection

Preprocessing the data

Feature extraction

Diagnosis

EKF BASED ALGORITHMS FOR ATTITUDE AND HEADING ESTIMATION OF UAV

EKF BASED ALGORITHM FOR STORE SEPARATION TRAJECTORY ESTIMATION OF LCA

EKF BASED ALGORITHMS FOR INS/GPS FUSION FOR UAVS

EMPIRICAL ESTIMATION OF AERO-DATA AND PERFORMANCE PARAMETERS

HUD SYMBOLOGY DEVELOPMENT FOR REGIONAL TRANSPORT AIRCRAFT

OPTIMIZATION ALGORITHMS FOR MEMS IMU CALIBRATION

REAL TIME SENSOR FUSION ARCHITECTURE FOR UNMANNED AERIAL VEHICLES

GEO-FENCING AND TAGGING

IMAGE REGISTRATION AND FUSION

SENSE AND AVOID TECHNIQUES FOR UAS

PHYSIOLOGICAL SIGNAL PROCESSING FOR PILOT WORKLOAD ASSESSMENT

BEARING HEALTH CONDITION MONITORING

ELECTRO-MECHANICAL ACTUATOR HEALTH MONITORING

ENHANCED AND SYNTHETIC VISION SYSTEM

MULTI-SENSOR DATA FUSION AND FILTERING TECHNIQUES

PURSUIT BASED GUIDANCE CONTROL, L-PSI CONTROL, LQR FORMATION CONTROL AND L1 ADAPTIVE CONTROL FOR THE CONTROL OF MULTI AGENT SYSTEM

L1 ADAPTIVE CONTROL WITH APPLICATIONS TO AEROSPACE VEHICLES

SLIDING MODE CONTROL TECHNIQUES FOR MICRO AERIAL VEHICLES

MODEL BASED DESIGN APPROACH: MAV AUTOPILOT FUNCTIONALITY DESIGN

PARAMETER ESTIMATION TECHNIQUES IN TIME DOMAIN AND FREQUENCY DOMAIN

STATISTICAL TOOLS AND TECHNIQUES FOR PILOT WORKLOAD ASSESSMENT

USER INTERFACE DESIGN USING VISUAL C++ PROGRAMMING

SIMULATION BASED VIRTUAL REALITY

FLUSH AIRDATA SYSTEM (FADS) ALGORITHMS:

REAL TIME PARAMETER ESTIMATION

AIRDATA CALIBRATION AND ACCURACY DETERMINATION

MODELING OF AIRFIELD AND AIRSPACE SCENARIO PERTAINING TO AN AIRPORT, SIMULATION OF AIRPORT WITH REALISTIC FLIGHT SCHEDULES

SIMILARITY BASED STABILITY AND CONTROL CLEARANCE FOR STORES INTEGRATED ON TO FRONTLINE FIGHTER AIRCRAFT OF INDIAN AIR FORCE

NOVEL SCHEME FOR BASELINE FLIGHT CONTROLLER DESIGN

MODELING AND SIMULATION

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Last updated on : 27-09-2020 10:06:25pm