The Experts below are selected from a list of 9435 Experts worldwide ranked by ideXlab platform
Mikko Lehtonen - One of the best experts on this subject based on the ideXlab platform.
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a new security paradigm for anti counterfeiting guidelines and an Implementation Roadmap
urif, 2011Co-Authors: Mikko LehtonenAbstract:Product counterfeiting and piracy continue to plague brand and trademark owners across industry sectors. This chapter analyses the reasons for ineffectiveness of past technical anti-counterfeiting strategies and formulates managerial guidelines for effective use of RFID in anti-counterfeiting . An Implementation Roadmap toward secure authentication of products tagged with EPC Gen-2 tags is proposed and possible supply chain locations for product checks are discussed.
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A New Security Paradigm for Anti-Counterfeiting See security feature : Guidelines and an Implementation Roadmap
Unique Radio Innovation for the 21st Century, 2010Co-Authors: Mikko LehtonenAbstract:Product counterfeiting and piracy continue to plague brand and trademark owners across industry sectors. This chapter analyses the reasons for ineffectiveness of past technical anti-counterfeiting strategies and formulates managerial guidelines for effective use of RFID in anti-counterfeiting . An Implementation Roadmap toward secure authentication of products tagged with EPC Gen-2 tags is proposed and possible supply chain locations for product checks are discussed.
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A New Security Paradigm for Anti-Counterfeiting See security feature : Guidelines and an Implementation Roadmap
Unique Radio Innovation for the 21st Century, 2010Co-Authors: Mikko LehtonenAbstract:Product counterfeiting and piracy continue to plague brand and trademark owners across industry sectors. This chapter analyses the reasons for ineffectiveness of past technical anti-counterfeiting strategies and formulates managerial guidelines for effective use of RFID in anti-counterfeiting . An Implementation Roadmap toward secure authentication of products tagged with EPC Gen-2 tags is proposed and possible supply chain locations for product checks are discussed.
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BRIDGE Anti-Counterfeiting Application Guidelines and Implementation Roadmap
2009Co-Authors: Mikko Lehtonen, Jasser Al-kassab, Sebastian LekiesAbstract:BRIDGE Anti-Counterfeiting Application Guidelines and Implementation Roadmap: EU Forschungsbericht : EU - www.bridge-project.eu, 2009.*
Markku Juntti - One of the best experts on this subject based on the ideXlab platform.
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Last Meter Indoor Terahertz Wireless Access: Performance Insights and Implementation Roadmap
IEEE Communications Magazine, 2018Co-Authors: Vitaly Petrov, Joonas Kokkoniemi, Dmitri Moltchanov, Janne J. Lehtomaki, Yevgeni Koucheryavy, Markku JunttiAbstract:The terahertz band, 0.1-10 THz, has sufficient resources not only to satisfy the 5G requirements of 10 Gb/s peak data rate but to enable a number of tempting rate-greedy applications. However, the terahertz band brings novel challenges, never addressed at lower frequencies. Among others, the scattering of terahertz waves from any object, including walls and furniture, and ultra-wideband highly directional links lead to fundamentally new propagation and interference structures. In this article, we review the recent progress in terahertz propagation modeling, and antenna and testbed designs, and propose a step-by-step Roadmap for wireless terahertz Ethernet extension for indoor environments. As a side effect, the described concept provides a second life to the currently underutilized Ethernet infrastructure by using it as a universally available backbone. By applying real terahertz band propagation, reflection, and scattering measurements as well as ray-tracing simulations of a typical office, we analyze two representative scenarios at 300 GHz and 1.25 THz frequencies, illustrating that extremely high rates can be achieved with realistic system parameters at room scales.
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Last Meter Indoor Terahertz Wireless Access: Performance Insights and Implementation Roadmap
arXiv: Networking and Internet Architecture, 2017Co-Authors: Vitaly Petrov, Joonas Kokkoniemi, Dmitri Moltchanov, Janne J. Lehtomaki, Yevgeni Koucheryavy, Markku JunttiAbstract:The terahertz (THz) band, 0.1-10 THz, has sufficient resources not only to satisfy the 5G requirements of 10 Gbit/s peak data rate but to enable a number of tempting rate-greedy applications. However, the THz band brings novel challenges, never addressed at lower frequencies. Among others, the scattering of THz waves from any object, including walls and furniture, and ultra-wideband highly-directional links lead to fundamentally new propagation and interference structures. In this article, we review the recent progress in THz propagation modeling, antenna and testbed designs, and propose a step-by-step Roadmap for wireless THz Ethernet extension for indoor environments. As a side effect, the described concept provides a second life to the currently underutilized Ethernet infrastructure by using it as a universally available backbone. By applying real THz band propagation, reflection, and scattering measurements as well as ray-tracing simulations of a typical office, we analyze two representative scenarios at 300 GHz and 1.25 THz frequencies illustrating that extremely high rates can be achieved with realistic system parameters at room scales.
Vitaly Petrov - One of the best experts on this subject based on the ideXlab platform.
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Last Meter Indoor Terahertz Wireless Access: Performance Insights and Implementation Roadmap
IEEE Communications Magazine, 2018Co-Authors: Vitaly Petrov, Joonas Kokkoniemi, Dmitri Moltchanov, Janne J. Lehtomaki, Yevgeni Koucheryavy, Markku JunttiAbstract:The terahertz band, 0.1-10 THz, has sufficient resources not only to satisfy the 5G requirements of 10 Gb/s peak data rate but to enable a number of tempting rate-greedy applications. However, the terahertz band brings novel challenges, never addressed at lower frequencies. Among others, the scattering of terahertz waves from any object, including walls and furniture, and ultra-wideband highly directional links lead to fundamentally new propagation and interference structures. In this article, we review the recent progress in terahertz propagation modeling, and antenna and testbed designs, and propose a step-by-step Roadmap for wireless terahertz Ethernet extension for indoor environments. As a side effect, the described concept provides a second life to the currently underutilized Ethernet infrastructure by using it as a universally available backbone. By applying real terahertz band propagation, reflection, and scattering measurements as well as ray-tracing simulations of a typical office, we analyze two representative scenarios at 300 GHz and 1.25 THz frequencies, illustrating that extremely high rates can be achieved with realistic system parameters at room scales.
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Last Meter Indoor Terahertz Wireless Access: Performance Insights and Implementation Roadmap
arXiv: Networking and Internet Architecture, 2017Co-Authors: Vitaly Petrov, Joonas Kokkoniemi, Dmitri Moltchanov, Janne J. Lehtomaki, Yevgeni Koucheryavy, Markku JunttiAbstract:The terahertz (THz) band, 0.1-10 THz, has sufficient resources not only to satisfy the 5G requirements of 10 Gbit/s peak data rate but to enable a number of tempting rate-greedy applications. However, the THz band brings novel challenges, never addressed at lower frequencies. Among others, the scattering of THz waves from any object, including walls and furniture, and ultra-wideband highly-directional links lead to fundamentally new propagation and interference structures. In this article, we review the recent progress in THz propagation modeling, antenna and testbed designs, and propose a step-by-step Roadmap for wireless THz Ethernet extension for indoor environments. As a side effect, the described concept provides a second life to the currently underutilized Ethernet infrastructure by using it as a universally available backbone. By applying real THz band propagation, reflection, and scattering measurements as well as ray-tracing simulations of a typical office, we analyze two representative scenarios at 300 GHz and 1.25 THz frequencies illustrating that extremely high rates can be achieved with realistic system parameters at room scales.
Mohand-said Hacid - One of the best experts on this subject based on the ideXlab platform.
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Shift-BOX: INBOX Time Shifting to Reduce Email Clutter
2010Co-Authors: Romain Vuillemot, Jean-marc Petit, Mohand-said HacidAbstract:In this paper, we are interested in exploring the idea of giving users the ability to shift emails reception time, such as to pause or replay sequences of emails, during a user-selected time window. To our knowledge, email analysis techniques mainly rely on reception time to extract sequential events from emails, such as to reconstruct conversational threads. Time stays no more a physical quantity. Our hypothesis is that giving users the ability to shift time over a time window would help them to better deal with INBOX clutter and reduce email overload. Users would be able to replay sequences of archiving or email replying, and would be less afraid to make mistakes. To validate this hypothesis, we are currently designing a widget to let users re-play email receptions and actions (e.g. classification, tagging, archival, etc.) using a time-centric data stream model. We detail our Implementation Roadmap and next steps from our ongoing project.
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Shift-BOX : INBOX Time Shifting to Reduce Email Clutter
Conference on Email and AntiSpam, 2010Co-Authors: Romain Vuillemot, Mohand-said Hacid, Jean-marc Petit, D E LyonAbstract:In this paper, we are interested in exploring the idea of giv- ing users the ability to shift emails reception time, such as to pause or replay flows of emails, during a user-selected time window. To our knowledge, email analysis and interaction techniques mainly use reception time to extract sequential events from emails, such as to reconstruct conversational threads: time stays no more a physical quantity. The hy- pothesis we want to investigate is whether giving users the ability to shift time would help them to better deal with INBOX clutter and reduce email overload. To test this hypothesis, we are currently designing a media player-like widget to let users re-play email receptions and actions (e.g. classification, tagging, archival, etc.) using a time-centric data stream model. We detail our Implementation Roadmap and next steps from our ongoing project.
Romain Vuillemot - One of the best experts on this subject based on the ideXlab platform.
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Shift-BOX: INBOX Time Shifting to Reduce Email Clutter
2010Co-Authors: Romain Vuillemot, Jean-marc Petit, Mohand-said HacidAbstract:In this paper, we are interested in exploring the idea of giving users the ability to shift emails reception time, such as to pause or replay sequences of emails, during a user-selected time window. To our knowledge, email analysis techniques mainly rely on reception time to extract sequential events from emails, such as to reconstruct conversational threads. Time stays no more a physical quantity. Our hypothesis is that giving users the ability to shift time over a time window would help them to better deal with INBOX clutter and reduce email overload. Users would be able to replay sequences of archiving or email replying, and would be less afraid to make mistakes. To validate this hypothesis, we are currently designing a widget to let users re-play email receptions and actions (e.g. classification, tagging, archival, etc.) using a time-centric data stream model. We detail our Implementation Roadmap and next steps from our ongoing project.
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Shift-BOX : INBOX Time Shifting to Reduce Email Clutter
Conference on Email and AntiSpam, 2010Co-Authors: Romain Vuillemot, Mohand-said Hacid, Jean-marc Petit, D E LyonAbstract:In this paper, we are interested in exploring the idea of giv- ing users the ability to shift emails reception time, such as to pause or replay flows of emails, during a user-selected time window. To our knowledge, email analysis and interaction techniques mainly use reception time to extract sequential events from emails, such as to reconstruct conversational threads: time stays no more a physical quantity. The hy- pothesis we want to investigate is whether giving users the ability to shift time would help them to better deal with INBOX clutter and reduce email overload. To test this hypothesis, we are currently designing a media player-like widget to let users re-play email receptions and actions (e.g. classification, tagging, archival, etc.) using a time-centric data stream model. We detail our Implementation Roadmap and next steps from our ongoing project.