See veebileht kasutab küpsiseid kasutaja sessiooni andmete hoidmiseks. Veebilehe kasutamisega nõustute ETISe kasutustingimustega. Loe rohkem
Olen nõus
"Muu" projekt VFP15016
VFP15016 "Sensorid laiaulatuslikuks ookeanipõhja hüdrodünaamiliseks kujutamiseks (1.04.2015−31.03.2019)", Maarja Kruusmaa, Tallinna Tehnikaülikool, Tallinna Tehnikaülikool, Infotehnoloogia teaduskond, Biorobootika keskus.
VFP15016
Sensorid laiaulatuslikuks ookeanipõhja hüdrodünaamiliseks kujutamiseks
Sensors for LArge scale HydrodynaMic Imaging of ocean floor (LAkHsMI)
Sensors for LArge scale HydrodynaMic Imaging of ocean floor (LAkHsMI)
1.04.2015
31.03.2019
Teadus- ja arendusprojekt
Muu
ValdkondAlamvaldkondCERCS erialaFrascati Manual’i erialaProtsent
4. Loodusteadused ja tehnika4.7. Info- ja kommunikatsioonitehnoloogiaT121 Signaalitöötlus 2.2. Elektroenergeetika, elektroonika (elektroenergeetika, elektroonika, sidetehnika, arvutitehnika ja teised seotud teadused)70,0
1. Bio- ja keskkonnateadused1.8. Keskkonnaseisundit ja keskkonnakaitset hõlmavad uuringudT270 Keskkonnatehnoloogia, reostuskontroll1.4. Maateadused ja sellega seotud keskkonnateadused (geoloogia, geofüüsika, mineroloogia, füüsiline geograafia ning teised geoteadused, meteoroloogia ja ning teised atmosfääriteadused, klimatoloogia, okeanograafia, vulkanoloogia, paleoökoloogia30,0
AsutusRollPeriood
Tallinna Tehnikaülikoolkoordinaator01.04.2015−31.03.2019
Tallinna Tehnikaülikool, Infotehnoloogia teaduskond, Biorobootika keskuskoordinaator01.04.2015−31.03.2019
AsutusRiikTüüp
Euroopa Komisjon
PerioodSumma
01.04.2015−31.03.2019567 750,00 EUR
567 750,00 EUR
välisleping, HORIZON 2020

"LAkHsMI will develop a new bio-inspired technology to make continuous and cost-effective measurements of the near-field, large-scale hydrodynamic situation, for environmental monitoring in cabled ocean observatories, marine renewable energy and port/harbor security. We will design, manufacture, and field test prototype smart sensor cables that measure differential pressure and temperature on the ocean floor and enable high resolution imaging of the surrounding volume in space and time, is simple, inexpensive and has very low power consumption The cables can be connecting with existing cabled ocean observatories. The technology is inspired by the biophysics of fish hydrodynamic sensing. The technology is scalable from meters to possibly hundreds of kilometers and allows a high sampling frequency. LAkHsMI will also develop innovative methods for hydrodynamic imaging. It produces several continuous on-line information products for interdisciplinary oceanography and seismic geophysics but also for other applications including tracking fish and fish schools or (sub)surface traffic in harbours. Software interfaces developed in the course of the project will be integrated with existing observatory systems (such as EUROGOOS). LAkHsMI will design and implement the sensor cables on small large scales. Tests will be conducted in a tank, a pool, an in ocean observatory."
"LAkHsMI will develop a new bio-inspired technology to make continuous and cost-effective measurements of the near-field, large-scale hydrodynamic situation, for environmental monitoring in cabled ocean observatories, marine renewable energy and port/harbor security. We will design, manufacture, and field test prototype smart sensor cables that measure differential pressure and temperature on the ocean floor and enable high resolution imaging of the surrounding volume in space and time, is simple, inexpensive and has very low power consumption The cables can be connecting with existing cabled ocean observatories. The technology is inspired by the biophysics of fish hydrodynamic sensing. The technology is scalable from meters to possibly hundreds of kilometers and allows a high sampling frequency. LAkHsMI will also develop innovative methods for hydrodynamic imaging. It produces several continuous on-line information products for interdisciplinary oceanography and seismic geophysics but also for other applications including tracking fish and fish schools or (sub)surface traffic in harbours. Software interfaces developed in the course of the project will be integrated with existing observatory systems (such as EUROGOOS). LAkHsMI will design and implement the sensor cables on small large scales. Tests will be conducted in a tank, a pool, an in ocean observatory."
TegevusProtsent
Alusuuring50,0
Rakendusuuring25,0
Katse- ja arendustöö25,0