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  • 1
    Online Resource
    Online Resource
    Towards THz Chipless High-Q Cooperative Radar Targets for Identification, Sensing, and Ranging (2022)
    Cham : Springer International Publishing | Cham : Springer
    Details
    UID:
    b3kat_BV048496200
    Format: 1 Online-Ressource (XVI, 144 p. 89 illus., 85 illus. in color)
    Edition: 1st ed. 2022
    ISBN: 9783031049767
    Series Statement: Springer Theses, Recognizing Outstanding Ph.D. Research
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-04975-0
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-04977-4
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-04978-1
    Language: English
    DOI: 10.1007/978-3-031-04976-7
    URL: Volltext  (URL des Erstveröffentlichers)
    URL: lizenzpflichtig
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Online Access
    Open Access Request
    UB Potsdam
    TH Brandenburg
  • 2
    Online Resource
    Online Resource
    Towards THz chipless high-Q cooperative radar targets for identification, sensing, and ranging / (2022)
    Cham, Switzerland :Springer,
    Details
    UID:
    edoccha_9960862302902883
    Format: 1 online resource (156 pages) : , illustrations (chiefly color).
    ISBN: 3-031-04976-4
    Series Statement: Springer theses
    Content: This work systematically investigates the use of high-quality (high-Q) resonators as coding particles of chipless cooperative radar targets to overcome clutter. Due to their high-Q, the backscattered signature can outlast clutter and permit reliable readouts in dynamic environments as well as its integration in other types of cooperative radar targets for joint identification, sensing, and ranging capabilities. This is first demonstrated with temperature and pressure sensors in the microwave frequency range, which include the characterization of a novel temperature sensor for machine tool monitoring up to 400 C, as well as inside the machine. Afterwards, the thesis proposes and demonstrates the use of metallic as well as dielectric Electromagnetic BandGap (EBG) structures to enable the realization and to enhance the capabilities at mm-Wave and THz frequencies compared to microwave frequencies with compact monolithic multi-resonator cooperative radar targets. Furthermore, this work studies the integration of resonators as coding particles inside larger retroreflective configurations such as Luneburg lenses to achieve long-range and high accuracy for localization and, at the same time, frequency coding robust against clutter for identification. Finally, the successful readout of these cooperative radar targets is demonstrated in cluttered dynamic environments, as well as with readers based on Frequency-Modulated Continuous-Wave (FMCW) radars.
    Note: "Doctoral thesis accepted by Technical University of Darmstadt, Darmstadt, Germany." , Intro -- Supervisor's Foreword -- Abstract -- Acknowledgments -- Contents -- Acronyms -- 1 Introduction -- 1.1 Motivation -- 1.2 Why High-mm-Wave and THz Tags? -- 1.3 Thesis Overview -- References -- 2 High-Q Resonators for Chipless RFID and Sensing -- 2.1 Passive Backscattering -- 2.1.1 RCS of Conventional Targets -- 2.1.2 Maximum Range -- 2.2 High-Q Resonators -- 2.2.1 Estimating Material Losses -- 2.2.2 RCS of a Resonating Tag -- 2.3 Clutter Suppression Methods -- 2.3.1 Harmonic Generation -- 2.3.2 Out-of-Band Channel Equalization -- 2.3.3 Time-Gating -- 2.4 Identification and Sensing with High-Q Resonators -- 2.4.1 Identification and Sensing -- 2.4.2 Hybrid Modulation, Ranging Accuracy, and Sensing Accuracy -- References -- 3 Wireless Sensing with Single Air-Cladded High-Q Resonators at Microwaves -- 3.1 Sensing with a Single Air-Cladded High-Q Resonator -- 3.1.1 Temperature Sensor for Machine Tools -- 3.1.2 Sensing Other Physical Parameters Through Controlled Near-Field Variations -- 3.2 Hybrid Modulation Enabled by a High-Q Resonator -- 3.2.1 Hybrid Modulation Scheme Based on a High-Q Resonator and Phase-Coded TDR -- 3.2.2 Implementation in Ultrawideband -- 3.3 Limitations and Performance Deterioration Due to Lossy Materials and Packaging -- References -- 4 Electromagnetic Band Gap (EBG) High-Q Resonator Concepts at mm-Waves -- 4.1 High-Q Resonators in a Metallic Bed of Nails (BoN) -- 4.1.1 Single Resonator Design -- 4.1.2 Multi-resonator Tags -- 4.1.3 Discussion -- 4.2 High-Q Resonators in a Full-Dielectric Photonic Crystal (PhC) -- 4.2.1 Single Resonator Design -- 4.2.2 Multi-resonator Tags -- 4.2.3 Discussion -- 4.3 Potential and Limitations of EBG-Based High-Q Resonators -- References -- 5 High-RCS Wide-Angle Retroreflective Tags Towards THz -- 5.1 Corner Reflector and Resonator Array Integration. , 5.1.1 Q-Factor and RCS of Resonator Arrays -- 5.1.2 Coding with a Frequency Selective Surface (FSS) -- 5.2 Lüneburg Lens with Integrated High-Q Coding Particles -- 5.2.1 80GHz Lüneburg Lens Tag -- 5.2.2 240GHz HR-Si Lüneburg Lens Tag -- 5.2.3 Fused Silica Ball Lens with FSS -- 5.2.4 Discussion -- 5.3 Tag Identification and Ranging with a FMCW Radar at 80 and 240GHz -- 5.4 Tag Identification and Ranging in Cluttered Environments at 80GHz -- References -- 6 Conclusion and Outlook -- Appendix A Tag Dimensions -- Appendix B Measured Unloaded Q-Factors of Metal Cavities -- Appendix Curriculum Vitae.
    Additional Edition: ISBN 3-031-04975-6
    Language: English
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Charité
  • 3
    Online Resource
    Online Resource
    Towards THz Chipless High-Q Cooperative Radar Targets for Identification, Sensing, and Ranging (2022)
    Cham :Springer International Publishing :
    Details
    UID:
    almahu_9949372046102882
    Format: XVI, 144 p. 89 illus., 85 illus. in color. , online resource.
    Edition: 1st ed. 2022.
    ISBN: 9783031049767
    Series Statement: Springer Theses, Recognizing Outstanding Ph.D. Research,
    Content: This work systematically investigates the use of high-quality (high-Q) resonators as coding particles of chipless cooperative radar targets to overcome clutter. Due to their high-Q, the backscattered signature can outlast clutter and permit reliable readouts in dynamic environments as well as its integration in other types of cooperative radar targets for joint identification, sensing, and ranging capabilities. This is first demonstrated with temperature and pressure sensors in the microwave frequency range, which include the characterization of a novel temperature sensor for machine tool monitoring up to 400 °C, as well as inside the machine. Afterwards, the thesis proposes and demonstrates the use of metallic as well as dielectric Electromagnetic BandGap (EBG) structures to enable the realization and to enhance the capabilities at mm-Wave and THz frequencies compared to microwave frequencies with compact monolithic multi-resonator cooperative radar targets. Furthermore, this work studies the integration of resonators as coding particles inside larger retroreflective configurations such as Luneburg lenses to achieve long-range and high accuracy for localization and, at the same time, frequency coding robust against clutter for identification. Finally, the successful readout of these cooperative radar targets is demonstrated in cluttered dynamic environments, as well as with readers based on Frequency-Modulated Continuous-Wave (FMCW) radars.
    Note: Introduction -- High-Q Resonators for Chipless RFID and Sensing -- Wireless Sensing with Single Air-cladded High-Q Resonators -- Electromagnetic BandGap (EBG) high-Q Resonator Concepts -- High-RCS Wide-Angle Retroreflective Tags Towards THz 91.
    In: Springer Nature eBook
    Additional Edition: Printed edition: ISBN 9783031049750
    Additional Edition: Printed edition: ISBN 9783031049774
    Additional Edition: Printed edition: ISBN 9783031049781
    Language: English
    DOI: 10.1007/978-3-031-04976-7
    URL: https://doi.org/10.1007/978-3-031-04976-7
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Open Access Request
    HU Berlin
  • 4
    Online Resource
    Online Resource
    Towards THz Chipless High-Q Cooperative Radar Targets for Identification, Sensing, and Ranging (2022)
    Cham : Springer International Publishing | Cham : Imprint: Springer
    Details
    UID:
    gbv_181757079X
    Format: 1 Online-Ressource(XVI, 144 p. 89 illus., 85 illus. in color.)
    Edition: 1st ed. 2022.
    ISBN: 9783031049767
    Series Statement: Springer Theses, Recognizing Outstanding Ph.D. Research
    Content: Introduction -- High-Q Resonators for Chipless RFID and Sensing -- Wireless Sensing with Single Air-cladded High-Q Resonators -- Electromagnetic BandGap (EBG) high-Q Resonator Concepts -- High-RCS Wide-Angle Retroreflective Tags Towards THz 91.
    Content: This work systematically investigates the use of high-quality (high-Q) resonators as coding particles of chipless cooperative radar targets to overcome clutter. Due to their high-Q, the backscattered signature can outlast clutter and permit reliable readouts in dynamic environments as well as its integration in other types of cooperative radar targets for joint identification, sensing, and ranging capabilities. This is first demonstrated with temperature and pressure sensors in the microwave frequency range, which include the characterization of a novel temperature sensor for machine tool monitoring up to 400 °C, as well as inside the machine. Afterwards, the thesis proposes and demonstrates the use of metallic as well as dielectric Electromagnetic BandGap (EBG) structures to enable the realization and to enhance the capabilities at mm-Wave and THz frequencies compared to microwave frequencies with compact monolithic multi-resonator cooperative radar targets. Furthermore, this work studies the integration of resonators as coding particles inside larger retroreflective configurations such as Luneburg lenses to achieve long-range and high accuracy for localization and, at the same time, frequency coding robust against clutter for identification. Finally, the successful readout of these cooperative radar targets is demonstrated in cluttered dynamic environments, as well as with readers based on Frequency-Modulated Continuous-Wave (FMCW) radars.
    Additional Edition: ISBN 9783031049750
    Additional Edition: ISBN 9783031049774
    Additional Edition: ISBN 9783031049781
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9783031049750
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9783031049774
    Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9783031049781
    Language: English
    DOI: 10.1007/978-3-031-04976-7
    URL: lizenzpflichtig
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    Open Access Request
    UB Potsdam
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