https://ims.ut.ee/api.php?action=feedcontributions&feedformat=atom&user=AlopIntelligent Materials and Systems Lab - User contributions [en]2026-04-19T14:16:58ZUser contributionsMediaWiki 1.38.2https://ims.ut.ee/index.php?title=ICT_DCNet&diff=8142ICT DCNet2011-01-10T14:26:49Z<p>Alop: </p>
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<div>[[File:ESTLAT.gif | 500 px]] [[File:UT.jpg | 200 px | right ]]<br />
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'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
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'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
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'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 30.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
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[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8124ICT DCNet2011-01-06T14:56:33Z<p>Alop: </p>
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<div>[[File:ESTLAT.gif | 500 px]] [[File:UT.jpg | 200 px | right ]]<br />
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'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8123ICT DCNet2011-01-06T14:56:08Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif | 500 px]] [[File:UT.jpg | 200 px | ]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8122ICT DCNet2011-01-06T14:33:46Z<p>Alop: </p>
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<div>[[File:ESTLAT.gif | 500 px]] [[File:UT.jpg | 200 px]]<br />
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'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8121ICT DCNet2011-01-06T14:33:17Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif | 500 px]] [[File:UT.jpg | 500 px]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8120ICT DCNet2011-01-06T14:32:06Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif | 500 px | upright]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:UT.jpg|100px]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=File:UT.jpg&diff=8119File:UT.jpg2011-01-06T14:30:56Z<p>Alop: University of Tartu Logo</p>
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<div>University of Tartu Logo</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8118ICT DCNet2011-01-06T14:28:29Z<p>Alop: </p>
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<div>[[File:ESTLAT.gif | 500 px | upright]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8117ICT DCNet2011-01-06T14:27:08Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif | 300 px | upright]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8116ICT DCNet2011-01-06T14:23:40Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif | upright]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=File:ESTLAT.gif&diff=8115File:ESTLAT.gif2011-01-06T14:21:45Z<p>Alop: uploaded a new version of "File:ESTLAT.gif"</p>
<hr />
<div>ESTLAT project Logo</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8114ICT DCNet2011-01-06T14:15:00Z<p>Alop: </p>
<hr />
<div>[[File:ESTLAT.gif]]<br />
<br />
'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8113ICT DCNet2011-01-06T14:05:53Z<p>Alop: </p>
<hr />
<div>'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
[[File:ESTLAT.gif]]<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:TSP.gif]]<br />
<br />
[[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8112ICT DCNet2011-01-06T14:05:16Z<p>Alop: </p>
<hr />
<div>'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
[[File:ESTLAT.gif]]<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:RTU.png]] [[File:TSP.gif]]</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8111ICT DCNet2011-01-06T13:57:37Z<p>Alop: </p>
<hr />
<div>'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee<br />
<br />
[[File:VHTP.gif]] [[File:LITC.gif]] [[File:RTU.png]]</div>Alophttps://ims.ut.ee/index.php?title=File:ESTLAT.gif&diff=8110File:ESTLAT.gif2011-01-06T13:54:23Z<p>Alop: ESTLAT project Logo</p>
<hr />
<div>ESTLAT project Logo</div>Alophttps://ims.ut.ee/index.php?title=File:VHTP.gif&diff=8109File:VHTP.gif2011-01-06T13:53:53Z<p>Alop: Ventspils High Technology Park Logo</p>
<hr />
<div>Ventspils High Technology Park Logo</div>Alophttps://ims.ut.ee/index.php?title=File:TSP.gif&diff=8108File:TSP.gif2011-01-06T13:53:13Z<p>Alop: Tartu Science Park Logo</p>
<hr />
<div>Tartu Science Park Logo</div>Alophttps://ims.ut.ee/index.php?title=File:RTU.png&diff=8107File:RTU.png2011-01-06T13:52:35Z<p>Alop: Riga Technical University Logo</p>
<hr />
<div>Riga Technical University Logo</div>Alophttps://ims.ut.ee/index.php?title=File:LITC.gif&diff=8106File:LITC.gif2011-01-06T13:50:35Z<p>Alop: Latvian IT CLuster Logo</p>
<hr />
<div>Latvian IT CLuster Logo</div>Alophttps://ims.ut.ee/index.php?title=Projects&diff=8105Projects2011-01-06T13:22:11Z<p>Alop: </p>
<hr />
<div>== [[Ionic Polymer Metal Composites (IPMC) modelling and control]] ==<br />
This research focuses on building EAP devices as well as methods for their control. Particularly, we are focusing at the following research problems: <br />
* Electromechanical modelling of IPMC materials<br />
* Design of novel IPMC actuators.<br />
* Development of position sensors for IPMC actuators.<br />
* Development of control methods of IPMC actuators to achieve less energy consumption at large output force and torque.<br />
* Development of feedback control methods for IPMC actuators.<br />
* Design of autonomous IPMC actuators and devices.<br />
<br />
== Carbon-Polymer Composite Electroactive Materials ==<br />
This research focuse on developing new materials based on carbide derived carbon, polymer matrix and ioni liquid composite materials. These materials are relatively strong and well controllable by open loop current control. It is possible to prepare either bending or expanding(linear) actuators. Particularly, we are focusing on:<br />
* Design of material with specific electromechanical properties (speed, force)<br />
* Atomistic and electromechanical modelling of the material<br />
* Design of the actuators suitable for Lab-on-Chip applications<br />
* Development of the fabrication technology suitable for LoC applications<br />
* Design of prototypes for several applications<br />
<br />
== [[Material study of conducting polymers]] ==<br />
<br />
Electronically conducting polymers, polypyrrole (PPy) in particular, have been under heavy investigation during the last decades. Their useful optical, conductive, ion-exchange properties have already found use at the industrial level in various capacitors, displays, sensors, analyzers, etc. In addition to the practical use of these “classical” properties, several promising applications of the conducting polymers have been proposed in recent years, employing the bio-compatibility or electromechanical features of these polymers. Unfortunately, the lack of fundamental atomistic understanding of the development of the properties of the conducting polymers is hindering the wider use of the novel applications proposed. Our main focus has been the establishment of the relationships between the synthesis conditions, the structure and the properties of the polymers. Another field of interest is the stability (both chemical and physical) of these materials (especially if used in air, aqueous solutions or bio-liquids). Electrochemistry, spectroscopy, electron- and probe microscopy as well as theoretical modeling have been employed in order to gain a better understanding of these issues.<br />
<br />
==[[Molecular dynamics studies of poly(ethylene oxide) based electrolytes]] [[Image:PEO small.png|right]]==<br />
<br />
Solid electrolytes for the Lithium-Ion Polymer Battery can be produced by mixing a lithium salt, typically LiPF<sub>6</sub> or LiBF<sub>4</sub>, into poly(ethylene oxide) (PEO), -(CH<sub>2</sub>CH<sub>2</sub>O)n-. However, such electrolytes only exhibit adequate ionic conductivity (>10<sup>-4</sup> S/cm) at temperatures above 70°C, where the polymer becomes amorphous. The conventional wisdom has been that the high degree of local order (“crystallinity”) is the reason for the poor ionic conductivity at ambient temperatures. Much attention has therefore been devoted to the task of increasing the amorphous content of the PEO electrolyte at ambient temperatures.<br />
<br />
<!--==[[Biomimetic Underwater Robot]]==<br />
<br />
[[Image:allveerobot.jpg|100px|right]]<br />
<br />
At present, underwater vehicles almost exclusively use propeller and jet engines for propulsion and motion control. Underwater vehicles using this technology are reliable, powerful and with a well established theoretical background. However, aquatic animals almost exclusively use other methods of locomotion. At the same time their behaviour is characterized by very efficient propulsion, great maneuverability and silent motion. This project developed a biomimetic underwater vehicle for shallow water application and the methods of it's control.<br />
--><br />
==[[Computer-Aided Materials Design for Proton-Conducting Fluoropolymers]]==<br />
Molecular Dynamics (MD) simulations give us a chance to have close insights into Nafion's dynamics and local structure on molecular level. We can study the details of proton-conductivity and find out the mechanisms what can possibly improve this process.<br />
We are interested in following research problems:<br />
* design of the realistic and reliable Molecular Dynamics simulation model for Nafion as an electrolyte in the fuel cell,<br />
* simulations of proton hopping mechanism between Nafion chain and surrounding water,<br />
* the effects of Nafion side chains on the proton dynamics.<br />
<br />
== [[ICT DCNet]] ==<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.</div>Alophttps://ims.ut.ee/index.php?title=ICT_DCNet&diff=8104ICT DCNet2011-01-06T12:34:40Z<p>Alop: Created page with ''''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University] '''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [h…'</p>
<hr />
<div>'''Lead partner:''' [http://www.rtu.lv/en/ Riga Technical University]<br />
<br />
'''Partner(s):''' [http://www.ut.ee/en University of Tartu]; [http://www.itbaltic.com/home/ IT Cluster]; [http://www.teaduspark.ee/en Tartu Science Park]; [http://www.vhtp.lv/EN/ Ventspils High Technology Park]<br />
<br />
<br />
'''Priority and subpriority:'''<br />
<br />
Priority 1. Increased cohesion of the Programme area, 1.1 Reducing isolation through improved internal and external connectivity of the Programme area<br />
<br />
<br />
'''Start date and expiry date:'''<br />
<br />
'''Start date:''' 1.st of October 2010,<br />
<br />
'''End date:''' 31.of September 2012<br />
<br />
<br />
'''Description:'''<br />
<br />
Latvia (LV) and Estonia (EE) have been doing local ICT mechanic(robotics) activities for last few years. But all initiatives are planned and implemented inside one country. Some activities have been done on contest basis for many countries, but the continuity of the activities did not take place. In order to reduce national isolation and to foster external connectivity in a high value added innovative field of ICT mechanics, a joint project idea was developed. Project idea focuses on reducing external isolation by developing a joint Demo Centre [DC] network of exhibiting ICT mechanics solutions to foster information flow, by harmonising ICT study module, and by joint cross-border contests, thus to develop ICT network and improve overall access to ICT services through cross-border networking, cooperation and common information space. DC-s will be established on a joint ICT mechanics basis with each DC covering specific ICT niche. LV DC-s will cover satellite ICT DC and ICT mechanics (robotics) software DC. Tartu DC will cover ICT Mobile and location based services applications. Further activities are developed so to have a continuous joint character, by developing basic cross-border cooperation through study process, further involving DC that will work as prototype solutions exhibition places and finally getting together people interested in ICT mechanics, starting from school children, students, all enthusiasts, through joint contests. Thus a cycle of subactivities are planned to foster one joint aim of improving overall connectivity and access to information flow of innovative ICT solutions. Continuity of the program activities is ensured by developing basis for ICT mechanics further development and involving all stakeholders and interested parties. As a result cohesion of program area is increased and international competitiveness of program area is fostered.<br />
<br />
<br />
'''Budget:''' 632 330.00 EUR<br />
<br />
'''ERDF contribution:''' 537 481.00 EUR<br />
<br />
<br />
'''UT contact:''' Alvo Aabloo, alvo.aabloo [nospamm] ut.ee</div>Alophttps://ims.ut.ee/index.php?title=Projects&diff=8103Projects2011-01-06T12:34:15Z<p>Alop: </p>
<hr />
<div>== [[Ionic Polymer Metal Composites (IPMC) modelling and control]] ==<br />
This research focuses on building EAP devices as well as methods for their control. Particularly, we are focusing at the following research problems: <br />
* Electromechanical modelling of IPMC materials<br />
* Design of novel IPMC actuators.<br />
* Development of position sensors for IPMC actuators.<br />
* Development of control methods of IPMC actuators to achieve less energy consumption at large output force and torque.<br />
* Development of feedback control methods for IPMC actuators.<br />
* Design of autonomous IPMC actuators and devices.<br />
<br />
== Carbon-Polymer Composite Electroactive Materials ==<br />
This research focuse on developing new materials based on carbide derived carbon, polymer matrix and ioni liquid composite materials. These materials are relatively strong and well controllable by open loop current control. It is possible to prepare either bending or expanding(linear) actuators. Particularly, we are focusing on:<br />
* Design of material with specific electromechanical properties (speed, force)<br />
* Atomistic and electromechanical modelling of the material<br />
* Design of the actuators suitable for Lab-on-Chip applications<br />
* Development of the fabrication technology suitable for LoC applications<br />
* Design of prototypes for several applications<br />
<br />
== [[Material study of conducting polymers]] ==<br />
<br />
Electronically conducting polymers, polypyrrole (PPy) in particular, have been under heavy investigation during the last decades. Their useful optical, conductive, ion-exchange properties have already found use at the industrial level in various capacitors, displays, sensors, analyzers, etc. In addition to the practical use of these “classical” properties, several promising applications of the conducting polymers have been proposed in recent years, employing the bio-compatibility or electromechanical features of these polymers. Unfortunately, the lack of fundamental atomistic understanding of the development of the properties of the conducting polymers is hindering the wider use of the novel applications proposed. Our main focus has been the establishment of the relationships between the synthesis conditions, the structure and the properties of the polymers. Another field of interest is the stability (both chemical and physical) of these materials (especially if used in air, aqueous solutions or bio-liquids). Electrochemistry, spectroscopy, electron- and probe microscopy as well as theoretical modeling have been employed in order to gain a better understanding of these issues.<br />
<br />
==[[Molecular dynamics studies of poly(ethylene oxide) based electrolytes]] [[Image:PEO small.png|right]]==<br />
<br />
Solid electrolytes for the Lithium-Ion Polymer Battery can be produced by mixing a lithium salt, typically LiPF<sub>6</sub> or LiBF<sub>4</sub>, into poly(ethylene oxide) (PEO), -(CH<sub>2</sub>CH<sub>2</sub>O)n-. However, such electrolytes only exhibit adequate ionic conductivity (>10<sup>-4</sup> S/cm) at temperatures above 70°C, where the polymer becomes amorphous. The conventional wisdom has been that the high degree of local order (“crystallinity”) is the reason for the poor ionic conductivity at ambient temperatures. Much attention has therefore been devoted to the task of increasing the amorphous content of the PEO electrolyte at ambient temperatures.<br />
<br />
<!--==[[Biomimetic Underwater Robot]]==<br />
<br />
[[Image:allveerobot.jpg|100px|right]]<br />
<br />
At present, underwater vehicles almost exclusively use propeller and jet engines for propulsion and motion control. Underwater vehicles using this technology are reliable, powerful and with a well established theoretical background. However, aquatic animals almost exclusively use other methods of locomotion. At the same time their behaviour is characterized by very efficient propulsion, great maneuverability and silent motion. This project developed a biomimetic underwater vehicle for shallow water application and the methods of it's control.<br />
--><br />
==[[Computer-Aided Materials Design for Proton-Conducting Fluoropolymers]]==<br />
Molecular Dynamics (MD) simulations give us a chance to have close insights into Nafion's dynamics and local structure on molecular level. We can study the details of proton-conductivity and find out the mechanisms what can possibly improve this process.<br />
We are interested in following research problems:<br />
* design of the realistic and reliable Molecular Dynamics simulation model for Nafion as an electrolyte in the fuel cell,<br />
* simulations of proton hopping mechanism between Nafion chain and surrounding water,<br />
* the effects of Nafion side chains on the proton dynamics.<br />
<br />
== [[ICT DCNet]] ==</div>Alophttps://ims.ut.ee/index.php?title=Projects&diff=8102Projects2011-01-06T12:33:29Z<p>Alop: </p>
<hr />
<div>== [[Ionic Polymer Metal Composites (IPMC) modelling and control]] ==<br />
This research focuses on building EAP devices as well as methods for their control. Particularly, we are focusing at the following research problems: <br />
* Electromechanical modelling of IPMC materials<br />
* Design of novel IPMC actuators.<br />
* Development of position sensors for IPMC actuators.<br />
* Development of control methods of IPMC actuators to achieve less energy consumption at large output force and torque.<br />
* Development of feedback control methods for IPMC actuators.<br />
* Design of autonomous IPMC actuators and devices.<br />
<br />
== Carbon-Polymer Composite Electroactive Materials ==<br />
This research focuse on developing new materials based on carbide derived carbon, polymer matrix and ioni liquid composite materials. These materials are relatively strong and well controllable by open loop current control. It is possible to prepare either bending or expanding(linear) actuators. Particularly, we are focusing on:<br />
* Design of material with specific electromechanical properties (speed, force)<br />
* Atomistic and electromechanical modelling of the material<br />
* Design of the actuators suitable for Lab-on-Chip applications<br />
* Development of the fabrication technology suitable for LoC applications<br />
* Design of prototypes for several applications<br />
<br />
== [[Material study of conducting polymers]] ==<br />
<br />
Electronically conducting polymers, polypyrrole (PPy) in particular, have been under heavy investigation during the last decades. Their useful optical, conductive, ion-exchange properties have already found use at the industrial level in various capacitors, displays, sensors, analyzers, etc. In addition to the practical use of these “classical” properties, several promising applications of the conducting polymers have been proposed in recent years, employing the bio-compatibility or electromechanical features of these polymers. Unfortunately, the lack of fundamental atomistic understanding of the development of the properties of the conducting polymers is hindering the wider use of the novel applications proposed. Our main focus has been the establishment of the relationships between the synthesis conditions, the structure and the properties of the polymers. Another field of interest is the stability (both chemical and physical) of these materials (especially if used in air, aqueous solutions or bio-liquids). Electrochemistry, spectroscopy, electron- and probe microscopy as well as theoretical modeling have been employed in order to gain a better understanding of these issues.<br />
<br />
==[[Molecular dynamics studies of poly(ethylene oxide) based electrolytes]] [[Image:PEO small.png|right]]==<br />
<br />
Solid electrolytes for the Lithium-Ion Polymer Battery can be produced by mixing a lithium salt, typically LiPF<sub>6</sub> or LiBF<sub>4</sub>, into poly(ethylene oxide) (PEO), -(CH<sub>2</sub>CH<sub>2</sub>O)n-. However, such electrolytes only exhibit adequate ionic conductivity (>10<sup>-4</sup> S/cm) at temperatures above 70°C, where the polymer becomes amorphous. The conventional wisdom has been that the high degree of local order (“crystallinity”) is the reason for the poor ionic conductivity at ambient temperatures. Much attention has therefore been devoted to the task of increasing the amorphous content of the PEO electrolyte at ambient temperatures.<br />
<br />
<!--==[[Biomimetic Underwater Robot]]==<br />
<br />
[[Image:allveerobot.jpg|100px|right]]<br />
<br />
At present, underwater vehicles almost exclusively use propeller and jet engines for propulsion and motion control. Underwater vehicles using this technology are reliable, powerful and with a well established theoretical background. However, aquatic animals almost exclusively use other methods of locomotion. At the same time their behaviour is characterized by very efficient propulsion, great maneuverability and silent motion. This project developed a biomimetic underwater vehicle for shallow water application and the methods of it's control.<br />
--><br />
==[[Computer-Aided Materials Design for Proton-Conducting Fluoropolymers]]==<br />
Molecular Dynamics (MD) simulations give us a chance to have close insights into Nafion's dynamics and local structure on molecular level. We can study the details of proton-conductivity and find out the mechanisms what can possibly improve this process.<br />
We are interested in following research problems:<br />
* design of the realistic and reliable Molecular Dynamics simulation model for Nafion as an electrolyte in the fuel cell,<br />
* simulations of proton hopping mechanism between Nafion chain and surrounding water,<br />
* the effects of Nafion side chains on the proton dynamics.<br />
<br />
== ICT DCNet ==</div>Alophttps://ims.ut.ee/index.php?title=Current_events&diff=7450Current events2010-05-24T09:17:24Z<p>Alop: /* May 31th 2010 */</p>
<hr />
<div>='''IMS Lab seminars'''=<br />
''every Monday 13:00-14:30 in IT seminar room (Nooruse 1-144)''<br />
<br />
===January 11th 2010===<br />
Terje Raudsepp "Conductive polymer IPN actuators"<br />
===January 18th 2010===<br />
Artur Tamm "Mannekeen: juhttarkvaradest ning probleemidest (ehk Arturi panus sellesse projekti)"<br />
<br />
===January 25th 2010===<br />
Artur Abels - Robotex 2009'l kasutatud algoritmid<br />
<br />
===February 1th 2010===<br />
Tarmo Tamm: Molekulaardisain: HCV proteaasi inhibiitorite teoreetilise loomise näitel<br />
<br />
===February 8th 2010===<br />
Endel Soolo "jäi ära"<br />
===February 15th 2010===<br />
Karl Kruusamäe "EM model of the patterned IPMC actuator, ''a.k.a. problems with italian math''"<br />
<br />
===February 22th 2010===<br />
Endel Soolo: Honeycomb Carbon: A Review of Graphene. (Slaidid: [[File:seminar-endelsoolo-2010-02-22.pdf]])<br />
<br />
===March 1th 2010===<br />
Priit Priimägi<br />
===March 8th 2010===<br />
Veiko Vunder<br />
===March 15th 2010===<br />
Heilo Altin<br />
===March 22th 2010===<br />
Urmas Johanson<br />
<br />
===March 29th 2010===<br />
Indrek Must: Kunstlihaste kontroll soojusvõrrandi abil<br />
<br />
[[Media:Ettekanne_29.03.10_Indrek_Must.pdf|Ettekande slaidid]]<br><br />
<br />
===April 5th 2010===<br />
Friedrich Kaasik<br />
<br />
===April 12th 2010===<br />
Pille Rinne<br />
===April 19th 2010===<br />
Janno Torop<br />
===April 26th 2010===<br />
Roman Leinus<br />
Vahur Zadin<br />
<br />
===May 10th 2010===<br />
eelkaitsmine<br />
===May 17th 2010===<br />
Erki Metsanurk [[Media:Ettekanne.pdf|SLAIDID]]<br />
<br />
===May 24th 2010===<br />
eelkaitsmine:<br />
Pille Rinne,<br />
Inga Põldsalu<br />
Gert Tomingas<br />
(päev lukus)<br />
<br />
===May 31th 2010===<br />
eelkaitsmine/ (Artur Tamm, Veiko Vunder, Siima Sundla, Leonid Kuritsin, Alo Peets)-nimekiri lukku sel päeval-<br />
<br />
== Future seminars ==<br />
<br />
<br />
<br />
<br />
<br />
<br />
[[Seminars#Seminars in the past|Previous seminars]]<br />
<br />
''There is a choice: to give a talk about own results or about some interesting paper/book''<br />
<br />
[[Category:Seminars]]</div>Alophttps://ims.ut.ee/index.php?title=Current_events&diff=7366Current events2010-04-26T10:33:37Z<p>Alop: </p>
<hr />
<div>='''IMS Lab seminars'''=<br />
''every Monday 13:00-14:30 in IT seminar room (Nooruse 1-144)''<br />
<br />
===January 11th 2010===<br />
Terje Raudsepp "Conductive polymer IPN actuators"<br />
===January 18th 2010===<br />
Artur Tamm "Mannekeen: juhttarkvaradest ning probleemidest (ehk Arturi panus sellesse projekti)"<br />
<br />
===January 25th 2010===<br />
Artur Abels - Robotex 2009'l kasutatud algoritmid<br />
<br />
===February 1th 2010===<br />
Tarmo Tamm: Molekulaardisain: HCV proteaasi inhibiitorite teoreetilise loomise näitel<br />
<br />
===February 8th 2010===<br />
Endel Soolo "jäi ära"<br />
===February 15th 2010===<br />
Karl Kruusamäe "EM model of the patterned IPMC actuator, ''a.k.a. problems with italian math''"<br />
<br />
===February 22th 2010===<br />
Endel Soolo: Honeycomb Carbon: A Review of Graphene. (Slaidid: [[File:seminar-endelsoolo-2010-02-22.pdf]])<br />
<br />
===March 1th 2010===<br />
Priit Priimägi<br />
===March 8th 2010===<br />
Veiko Vunder<br />
===March 15th 2010===<br />
Heilo Altin<br />
===March 22th 2010===<br />
Urmas Johanson<br />
<br />
===March 29th 2010===<br />
Indrek Must: Kunstlihaste kontroll soojusvõrrandi abil<br />
<br />
[[Media:Ettekanne_29.03.10_Indrek_Must.pdf|Ettekande slaidid]]<br><br />
<br />
===April 5th 2010===<br />
Friedrich Kaasik<br />
<br />
===April 12th 2010===<br />
Pille Rinne<br />
===April 19th 2010===<br />
Janno Torop<br />
===April 26th 2010===<br />
Roman Leinus<br />
===May 3th 2010===<br />
Alvo Aabloo<br />
===May 10th 2010===<br />
eelkaitsmine<br />
===May 17th 2010===<br />
eelkaitsmine<br />
===May 24th 2010===<br />
eelkaitsmine <br />
===May 31th 2010===<br />
eelkaitsmine/ (Artur Tamm)<br />
<br />
<br />
== Future seminars ==<br />
<br />
<br />
<br />
<br />
<br />
<br />
[[Seminars#Seminars in the past|Previous seminars]]<br />
<br />
''There is a choice: to give a talk about own results or about some interesting paper/book''<br />
<br />
[[Category:Seminars]]</div>Alophttps://ims.ut.ee/index.php?title=Current_events&diff=7365Current events2010-04-26T10:31:27Z<p>Alop: </p>
<hr />
<div><br />
='''IMS Lab seminars'''=<br />
''every Monday 13:00-14:30 in IT seminar room (Nooruse 1-144)''<br />
<br />
===January 11th 2010===<br />
Terje Raudsepp "Conductive polymer IPN actuators"<br />
===January 18th 2010===<br />
Artur Tamm "Mannekeen: juhttarkvaradest ning probleemidest (ehk Arturi panus sellesse projekti)"<br />
<br />
===January 25th 2010===<br />
Artur Abels - Robotex 2009'l kasutatud algoritmid<br />
<br />
===February 1th 2010===<br />
Tarmo Tamm: Molekulaardisain: HCV proteaasi inhibiitorite teoreetilise loomise näitel<br />
<br />
===February 8th 2010===<br />
Endel Soolo "jäi ära"<br />
===February 15th 2010===<br />
Karl Kruusamäe "EM model of the patterned IPMC actuator, ''a.k.a. problems with italian math''"<br />
<br />
===February 22th 2010===<br />
Endel Soolo: Honeycomb Carbon: A Review of Graphene. (Slaidid: [[File:seminar-endelsoolo-2010-02-22.pdf]])<br />
<br />
===March 1th 2010===<br />
Priit Priimägi<br />
===March 8th 2010===<br />
Veiko Vunder<br />
===March 15th 2010===<br />
Heilo Altin<br />
===March 22th 2010===<br />
Urmas Johanson<br />
<br />
===March 29th 2010===<br />
Indrek Must: Kunstlihaste kontroll soojusvõrrandi abil<br />
<br />
[[Media:Ettekanne_29.03.10_Indrek_Must.pdf|Ettekande slaidid]]<br><br />
<br />
===April 5th 2010===<br />
Friedrich Kaasik<br />
<br />
===April 12th 2010===<br />
Pille Rinne<br />
===April 19th 2010===<br />
Janno Torop<br />
===April 26th 2010===<br />
Roman Leinus<br />
===May 3th 2010===<br />
Alvo Aabloo<br />
===May 10th 2010===<br />
eelkaitsmine<br />
===May 17th 2010===<br />
eelkaitsmine<br />
===May 24th 2010===<br />
eelkaitsmine / (Artur Tamm)<br />
===May 31th 2010===<br />
eelkaitsmine/?<br />
<br />
<br />
== Future seminars ==<br />
<br />
<br />
<br />
<br />
<br />
<br />
[[Seminars#Seminars in the past|Previous seminars]]<br />
<br />
''There is a choice: to give a talk about own results or about some interesting paper/book''<br />
<br />
[[Category:Seminars]]</div>Alophttps://ims.ut.ee/index.php?title=User:Alop&diff=4392User:Alop2008-07-02T06:39:10Z<p>Alop: </p>
<hr />
<div>==Alo Peets==<br />
[[Image:alop.jpg|right]]<br />
* Mobile: (+372) 5354 1122<br />
* E-mail: alop[ätt]ut.ee<br />
* Konto nr: 2210 2781 0751</div>Alophttps://ims.ut.ee/index.php?title=User:Alop&diff=2259User:Alop2007-02-13T12:54:31Z<p>Alop: </p>
<hr />
<div>==Alo Peets==<br />
[[Image:alop.jpg|right]]<br />
* Mobile: (+372) 5354 1122<br />
* E-mail: alop[ätt]ut.ee</div>Alophttps://ims.ut.ee/index.php?title=File:Alop.jpg&diff=2258File:Alop.jpg2007-02-13T12:53:47Z<p>Alop: </p>
<hr />
<div></div>Alophttps://ims.ut.ee/index.php?title=User:Alop&diff=2257User:Alop2007-02-13T12:53:07Z<p>Alop: </p>
<hr />
<div>==Alo Peets==<br />
[[Image:alop.jpg|right]]<br />
* Mobile: (+372) 5354 1122<br />
* E-mail: alop[ätt]ut.ee;</div>Alop