2018 International Conference on Technological Advances of Sensors and Instrumentation(ICTASI 2018)

2018 International Conference on Technological Advances of Sensors and Instrumentation(ICTASI 2018)

Location Malaysia Malaysia - Kuala Lumpur
Start Date Jan 26, 2018
End Date Jan 28, 2018
Event Type Conference
Subject Area Nanoelectronics Nano Optics - Nanophotonics NMES - MEMS Nanometrology Nanodevices - Equipment Others

DESCRIPTION

ICTASI 2018 welcomes researchers, engineers, scientists and industry professionals to an open forum where advances in the field of Sensors and Instrumentation can be shared and examined. The conference is an ideal platform for keeping up with advances and changes to a consistently morphing field. Leading researchers and industry experts from around the globe will b presenting the latest studies through papers and oral presentations.

Topics:

- Sensor Technology
- Accelerometers, Inclinometers and Gyroscopes
- Mechanical Sensors
- Optical Sensors
- Optical Fiber Sensors
- Photonic Sensors
- Biological, Chemical Sensors, Immunosensors and BioMEMS
- Temperature Sensors
- Pressure Sensors
- Acoustic Sensors
- Electromagnetic Sensors
- Gas Sensors
- Humidity Sensors
- Infrared Sensors, Devices and Thermography
- Radiation Sensors
- Robot Sensors
- Multi Sensor Fusion Technology
- Smart and Intelligent Sensors
- Virtual Sensors
- Sensor Interfacing and Signal Conditioning
- Sensor Calibration
- Nanomaterials and Electronics Technology for Sensors
- Semiconductor Materials for Sensors
- Polymer Materials for Sensors
- MEMS and NEMS
- Remote Sensors and Telemetry
- Instruments and Measuring Technology
- Metrology and Measurement Science
- Methods of Measurements
- Calibrations and Standards
- Measurement of Electrical Quantities
- Time and Frequency Measurements
- Measurement of Force, Mass, Torque, Inclination and Acceleration
- Magnetic Measurements
- Hardness Measurements
- Measurement of Geometrical Quantities
- Temperature and Thermal Measurements
- Pressure and Vacuum Measurements
- Vibration and Noise Measurement
- Flow Measurements
- Chemical Measurements
- Quantum Measurements and Photonics
- Acoustics and the Ultrasonic Measurements
- Environmental Measurements
- Power and Energy Measurements
- Measurement of Human Functions
- Measurements in Biology and Medicine
- Mathematical Tools for Measurements
- Optical and Radiation Measurements
- Microwave Measurements
- Virtual Instruments and Data Acquisition Systems
- Software Measurements
- Measurement Systems
- Distributed Measurements
- Analog-to-Digital Converters, Digital and Mixed Signal Processing
- Waveform Analysis and Measurements
- Scientific and Industrial Instrumentation
- Cyber-Physical Systems and IoT
- Experimental Mechanics
- Measurement in Robotics
- Metrology in Food and Nutrition
- Intelligent and Computer Vision Instruments
- Reliability of Instrument and Measurement Systems
- Nanometrology
- Technical Diagnostics and Testing
- Nondestructive Testing
- Education and Training in Measurement and Instrumentation
Automation and Control
- Components and Technologies for Control
- Programmable Logic Controllers (PLC)
- Control System Modeling and Simulation
- Fuzzy-logic and Artificial Neural Networks in Control Systems
- Industrial Automation
- Automated Manufacturing Systems
- Linear Control Systems
- Non-linear Control Systems
- Optimal Control
- Robust Control
- Distributed Parameter Systems
- Telematics
- CAD / CAM / CIM / SCADA
- Network Control and Security
- Web-enabled Manufacturing Control and Wireless Automation
- Computers for Control
- Computational Intelligence in Control
- Information Control in Manufacturing
- Intelligent Traffic Control
- Chemical Process Control
- Control in Agriculture; Biological and Medical Systems
- Modeling and Control of Environmental Systems
- Education and Training in Automatic Control and Systems
- Scientific objectives for future missions
- Scientific results for those missions that have flown
- Instrument design requirements to meet mission objectives and the resultant design and implementation experiences
- Sensor technology challenges in meeting instrument requirements
- Instrument and sensor integration challenges and experiences
- Planned and required enabling technologies
- Remote Sensing Fundamentals
- Radiometry and energy throughput
- Imaging
- Fundamental limits to IR imaging, including detector quantum noise and background limit
- Stray light considerations, including analysis, signal-to-noise, and instrument performance limitations
- Instrument calibration, comparison of predicted and measured results
- Space environment and radiation effects
- Calibration and testing
- Standards and characterization of components and materials
- IR/electro-optical system modeling and simulations
- Instrument Observational Facilities
- Instruments and their Scientific Returns
- Remote Sensing
- Enabling Technologies
- Infrared Telescopes for Earth Remote Sensing, Focal Plane Technology, and Detection Schemes

ORGANIZER