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  • scampy is python package implementing the combined transfer and scattering matrix modelling approach described in [1], jointly developed by the National Physical Laboratory and the Centre for Engineering Photonics at Cranfield University as part of an EPSRC funded iCASE studentship. The primary motivation to develop this software was to model the effects of multiple reflections and polarisation leakage within the optics of homodyne displacement measuring interferometers, however scampy is generally applicable to modelling the propagation of monochromatic light through networks of planar optical components. [1] "Polarisation-sensitive transfer matrix modelling for displacement measuring interferometry", A. Bridges, A. Yacoot, T. Kissinger and R. P. Tatam, awaiting publication.
    Data Types:
    • Software/Code
  • strapy is python package implementing the combined transfer and scattering matrix modelling approach described in [1], jointly developed by the National Physical Laboratory and the Centre for Engineering Photonics at Cranfield University as part of an EPSRC funded iCASE studentship. The primary motivation to develop this software was to model the effects of multiple reflections and polarisation leakage within the optics of homodyne displacement measuring interferometers, however strapy is generally applicable to modelling the propagation of monochromatic light through networks of planar optical components. [1] "Polarisation-sensitive transfer matrix modelling for displacement measuring interferometry", A. Bridges, A. Yacoot, T. Kissinger and R. P. Tatam, awaiting publication.
    Data Types:
    • Software/Code
  • strapy is python package implementing the combined transfer and scattering matrix modelling approach described in [1], jointly developed by the National Physical Laboratory and the Centre for Engineering Photonics at Cranfield University as part of an EPSRC funded iCASE studentship. The primary motivation to develop this software was to model the effects of multiple reflections and polarisation leakage within the optics of homodyne displacement measuring interferometers, however strapy is generally applicable to modelling the propagation of monochromatic light through networks of planar optical components. [1] "Polarisation-sensitive transfer matrix modelling for displacement measuring interferometry", A. Bridges, A. Yacoot, T. Kissinger and R. P. Tatam, awaiting publication.
    Data Types:
    • Software/Code
  • The Internet of Things (IoT) has significant potential in upgrading legacy production machinery with monitoring capabilities to unlock new capabilities and bring economic benefits. However, the introduction of IoT at the shop floor layer exposes it to additional security risks with potentially significant adverse operational impact. This project addresses such fundamental new risks at their root by introducing a novel endpoint security by design approach. The approach is implemented on a widely applicable production machinery monitoring application by introducing real time adaptation features for IoT device security through subsystem isolation and a dedicated lightweight authentication protocol.
    Data Types:
    • Software/Code
  • The GBSAR-Proc Python package is designed to load and process data gathered from Cranfield University's ground based Synthetic Aperture Radar (SAR) system. Included in the package are a series of classes designed to manipulate raw data, process it into range profiles and finally use the Backprojection Algorithm to plot high quality near-field SAR images. In addition to the more common planar SAR images, there is functionality to both generate and plot volumetric SAR images, formed on either the CPU or GPU.
    Data Types:
    • Software/Code
  • A one-dimensional soil water balance model that partitions daily rainfall into evapotranspiration, surface runoff and drainage. Options allow irrigation to be scheduled according to rules, water table position to be simulated with field under drainage, and soil water salinity to be estimated. The installation package includes a user manual, technical manual and a tutorial with sample data.
    Data Types:
    • Software/Code
  • The GBSAR-Proc Python package is designed to load and process data gathered from Cranfield University's ground based Synthetic Aperture Radar (SAR) system. Included in the package are a series of classes designed to manipulate raw data, process it into range profiles and finally use the Backprojection Algorithm to plot high quality near-field SAR images. In addition to the more common planar SAR images, there is functionality to both generate and plot volumetric SAR images, formed on either the CPU or GPU.
    Data Types:
    • Software/Code
  • A one-dimensional soil water balance model that partitions daily rainfall into evapotranspiration, surface runoff and drainage. Options allow irrigation to be scheduled according to rules, water table position to be simulated with field under drainage, and soil water salinity to be estimated. The installation package includes a user manual, technical manual and a tutorial with sample data.
    Data Types:
    • Software/Code
  • A simple on-screen calculator to calculate daily, or monthly reference evapotranspiration from weather data according to the Penman, Modified Penman (FAO24), Penman Monteith (FAO56) or Hargreaves methods.
    Data Types:
    • Software/Code
  • The GBSAR-Proc Python package is designed to load and process data gathered from Cranfield University's ground based Synthetic Aperture Radar (SAR) system. Included in the package are a series of classes designed to manipulate raw data, process it into range profiles and finally use the Backprojection Algorithm to plot high quality near-field SAR images. In addition to the more common planar SAR images, there is functionality to both generate and plot volumetric SAR images, formed on either the CPU or GPU.
    Data Types:
    • Software/Code