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2 results

  • A dual-frequency measurement setup with fully integrated SiGe-based radar sensors for the size estimation of particulate matter

  • Kennet Braasch, Alexander Teplyuk, Daniel Bruhn, Phillip Durdaut, Leve Freiwald, Florian Vogelsang, Nils Pohl, Michael Höft
  • Journal:
    International Journal of Microwave and Wireless Technologies , First View
    Published online by Cambridge University Press:
    22 November 2024, pp. 1-8
    • Article
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  • This paperpresents the measurement procedure as well as the calculations and theoretical background for the estimation of particle sizes with the help of a dual-frequency measurement setup. For the measurement, two fully integrated radar sensors are implemented which offer advantages over typically used technologies at high frequencies. The first sensor has a constant transmitting frequency of 90 GHz while the second sensor offers a possibility to vary the transmitting frequency over the entire D-band with frequencies between 110 and 180 GHz. With these frequencies, different sizes can be determined. The presented approach makes use of the different transitions between the linear increasing Rayleigh scattering regime and the Mie regime. With a fitting indoor measurement setup that resembles an industrial duct, the approach is verified for spheroid glass particles with a diameter of 0.875 mm. The results show a slight deviation from the expected value of particle sizes overall.

  • 6 - Foreign Language Learning Efficiency

  • from Part II - Transformative Language Learning and Teaching Applications in Government Programs
  • Edited by Betty Lou Leaver, Dan E. Davidson, Christine Campbell
  • Book:
    Transformative Language Learning and Teaching
    Published online:
    26 January 2021
    Print publication:
    21 January 2021, pp 51-60

  • Summary

    L2 learning today is increasingly outcomes-based, and demands learning efficiency. This chapter describes the design and implementation of transformative open architecture curricula to meet two challenges that arose during 2012-2014 at the Defense Language Institute Foreign Language Center (DLIFLC). The requirement was to achieve measurable proficiency growth (≥ .5 ILR level) for students entering with proficiency between ILR 1+ and 2+ in shorter time frames than previously considered feasible. The approach had to be applicable for all DLIFLC languages and allow courses to be brought online quickly and modified continually. The response employed a modular content-based and scenario-based structure. In place of linear scope and sequence, “vertical spiraling” was employed. Integration of activities was ensured through culminating scenarios, toward which all module activities were directed. Collaborative learning was ensured in part through initial negotiation that also enhanced learner empowerment, ensuring students could mentally map out learning needed in preparation for the culminating activity. Proficiency gains exceeding objectives were often achieved in as little as 6-8 weeks.