ALLSENSORS 2019 Topics (for topics and submission details: see CfP on the site)<br>Trends on sensing and sensors types<br>Secure and energy–efficient sensors; Opportunistic sensing; Secure embedded visual sensing; Sensor calibration; Interference resilience in sensors–based systems; Delay–tolerant sensors; Time–sensitive sensing; Virtual sensing; Energy–delay conservation; Ubiquitous sensors; Sensors for organic/non–organic materials/enviroments; Short/long/adaptive transmission range sensors; Sensors and meta–data; Cryogenic sensors; Film–based sensors; Lifetime– and latency–aware sensors; Low/high pressure sensors; High–speed signal sensors; Chemical sensors; Cross–sensitive sensors; Tracking sensors; Ultra–wide band sensors; Undergroung sensors; Underwater sensors; Mobility sensing; Sensing stream data; Dense/coarse pouder sensors; Low/high temperature sensors; Bio–acoustic monitoring sensors; Hazardous gases sensors; Proximity sensors<br>Trends on sensing systems<br>Sensors and smart homes; Distributed visual tracking systems; Sensors– and IoT–based systems; Smart micro–grid sensing; Sensing smart cities; Body–sensor networks; Sensors and IoD (Internet–of–Drones); Industrial sensing; Flooding sensing; IoT (Internet of Things) sensors; Smartphones as sensors; Real–time video surveillance systems; Mobile urban sensing applications; Wearable sensors; Sensing forest environments; Mobile crowdsensing systems; Air pollution sensing systems; Atmospheric sensing systems; Sensor–based user authentication systems<br>Sensors types<br>Mechanical sensors; Digital sensors; Optical sensors; Optical fiber sensors; Temperature sensors; Pressure sensors and transducers; Acoustic and ultrasonic sensors; Reflectometry sensors; Humidity sensors; Gas sensors; Frequency output sensors; Rotational speed sensors; Chemical sensors; Film–based sensors; Quartz crystal microbalance sensors; Biosensors; Inertial sensors; Gyroscopic sensors; Capillary sensors; Silicon–based sensors; Textile–based sensors<br>Quantum sensors and measurements<br>Sensors based on quatum phenomena (spectroscopy, imaging, etc.); Superconduction–based sensors; Transition edge sensors (TES); Superconducting quantum interference devices (SQUID); Gamma–ray and alpha particle detectors; TES bolometers; Polarization sensitive bolometers; Arrays of low temperature microbolometers; Superconducting x–ray spectrometers; Multi–chroic detector array; Kinetic inductance detectors; Industrial and scientific materials analysis; Precision measurements for wavelengths; Accurate measurements; Cosmic microwave background measurements; Measuring small energy; Superconducting readout electronics to measure and amplify the signals from the detectors<br>Cryogenic sensors and systems<br>Cryogenic temperature sensors; Cryogenic particle detectors; Calorimetric particle detection; Phonon particle detection; Superconducting nanowire single–photon detectors; Roton detectors; Multifunctional cryogenic sensors; Cryogenic Hall sensors; Cryogenic non–contact displacement sensors; Cryogenic instrumentation; Cryogenic temperature monitoring systems<br>Biosensors and bio–oriented electronics<br>Enzyme biosensors; Immunosensors; Natural and synthetic receptors; Electronic noses; DNA chips and nucleic acid sensors; Organism– and whole cell–based biosensors; Printed biosensors and organic electronics; Single–cell detection/analysis; Nanomaterials and nanoanalytical systems; Electrochemical biosensors; Biodetection; Materials and biosensors; Applications for biosensors; Commercial biosensors, manufacturing and markets; Bio–MEMS; Wearable skin sensors<br>Sensor technologies and materials<br>Biological, chemical sensors and arrays; Electromagnetic sensors; Multi–sensor fusion technology; Smart and intelligent sensors; Sensor interfacing and signal conditioning; Nanomaterials and electronics technology for sensors; Semiconductor materials for sensors; Polymer materials for Sensors; Nuclear magnetic resonance; Embedded sensors; Wearable sensors; RFID sensors; Underwater sensors; Wireless and wired sensors; Sensing materials – inorganic, organic, polymeric, composite, formulated, nanomaterials; Sensing materials stability; Sensor manufacturability<br>Aerospace sensors and sensor systems<br>Meteorological sensors and sensor systems for flight support; Aerospace photonics sensors and systems; Radar Systems; Non–destructive testing for aerospace<br>Sensor–related techniques and methods<br>Modern error theory and compensation techniques; Sensor Calibration; Self–calibration; Reliability of measurement systems; Precision and ultra–precision instruments; Modeling and simulation technologies for sensor–based systems; Universal frequency–to–digital conversion interface; Universal transducers and sensors interface; Performance analysis of sensors; Methods for multivariate analysis of sensor responses<br>Transducers, actuators<br>Electrical to mechanical energy conversion; Linear actuators; Manual actuators; Hydraulic actuators; Pneumatic actuators; Vacuum actuators; Computer vision instruments; Fluid power transmission and control; Mechatronics; Microelectronics; Wireless communication technology; Air and underwater communication<br>Metering/Measurements<br>Measurement theory; Automation instruments; Instruments and measuring technology; Instrument design and measurement theory; Mechanical measurements; Measurement in nanotechnology; Measurement in biomedicine; Measurement in environment (pollution, Arctic, humidity, etc.); Microwave measurements; Measurement of the noise and vibration; Measurement of force and strain; Measurement of displacement and proximity; Nondestructive testing; Light/Radiation monitoring; Computer online measurements; Sensor–based visualization and detecting systems; Single– and multi–parameter measurements.<br>Sensing systems<br>MEMS and NEMS; Online measurements; Remote sensing and telemetry; Virtual instruments; Thermometry and nanothermometry; Digital sensors and sensor systems; Industrial robots and automation; Inertial sensor systems; Remote Sensing for Climatology Models; Remote Sensing for Environmental Modeling; Remote sensing on atmosphere, clouds, temperature, ozone; Remote sensing on glaciers, polar fields, sea ice; Remote sensing on ocean waters, surface and subsurface water currents; Wind–driven currents, coastal waters, lakes; Remote sensing on earthquakes, hurricanes, late freezing, air currents; Remote sensing on large disasters, volcanoes, wildfires, marine oil spills, landslide hazards, tornadoes; Remote sensing on earth resources, aerosols, dams surveillance, geology, reservoirs; Remote sensing on agriculture; Tropical forests, deserts, vegetation dynamics, crop estimation; Remote sensing on hydro, flooding, drought, rainfalls, snowstorms; Remote sensing on urban traffic, public and commercial transportation, airports, naval ports<br>Sensor–system algorithms, protocols, communication and computation<br><div>Architectures, protocols and algorithms of sensor networks; Smart sensor systems; Data acquisition sensor–based systems; Energy–aware sensor systems; Resource allocation, services, QoS and fault tolerance in sensor networks; Smart Sensors for building surveillance; Social sensing systems; Deployments and implementations of sensor networks; Internet on Things sensor–based systems; Domain–oriented sensor systems; Web–base monitoring and control</div><div><br></div>
Abbrevation
ALLSENSORS
City
Athens
Country
Greece
Deadline Paper
Start Date
End Date
Abstract