Caroline Jespersen, Kathrine Brøgger, Emma Facius, Line Birk, Katrine Vesterbæk og Ida Sophie Guldbrandt

Hvorvidt Herning er en storby eller provinsby, er der delte meninger om. Uddannelsesmuligheder, seværdigheder og store events – I Herning er mulighederne åbne. Hos os på redaktionen, var der i begyndelsen kontroverser om, hvorvidt Herning tilhørte provins- eller storbys ”kategorien”.

Den årlige tilvækst af borgere i Herning er aktuelt med ca. 400 personer. Vi er i gunstig vækst. Vi vækster byen, befolkningen og uddannelserne. Trods de mange muligheder, kan vi dog konkludere, at vi tænker som provinsielle typer.

Læs også: En provinsby – forklædt i storby-krop

Herning er et storby-glasbillede, der hurtigt krakelerer af vores tilgang til systemet, os selv og omverdenen. Med andre ord – vi er en storby i vores ydre, men indeni tænker vi som provinsborgere.

Tilgangen til hvorvidt Herning er en stor- eller provinsby, afhænger meget af borgerens vante rammer. Kommer du fra Københavns sus-og-dus, vil du oftest opfatte Herning som en provinsby. Kommer du derimod fra Udkantsdanmark vil chancen for, at du ser Herning som en storby være markant større.

Opfattelsen af Herning som storby eller provinsby, er altså en type-præget beslutning.

Provinsby eller ej – Os her på redaktionen er stolte af at komme fra Herning.

11.472 Replies to “Herning, hvem er du?”

  1. Current developments in cooled mercury cadmium telluride (MCT or HgCdTe) infrared detector technological know-how
    have designed attainable the improvement of large overall performance infrared cameras for use in a huge wide
    variety of demanding thermal imaging applications.
    These infrared cameras are now out there with spectral
    sensitivity in the shortwave, mid-wave and long-wave spectral bands or alternatively in two bands.
    In addition, a selection of digicam resolutions are readily available as
    a result of mid-sizing and substantial-measurement detector arrays and a
    variety of pixel sizes. Also, digital camera characteristics now
    incorporate superior frame fee imaging, adjustable exposure time and
    event triggering enabling the seize of temporal thermal occasions.
    Subtle processing algorithms are available
    that result in an expanded dynamic vary to avoid
    saturation and enhance sensitivity. These infrared
    cameras can be calibrated so that the output digital values correspond to object temperatures.

    Non-uniformity correction algorithms are bundled that are independent
    of exposure time. These effectiveness abilities and camera attributes empower a vast
    variety of thermal imaging purposes that have been formerly not
    possible.

    At the heart of the high velocity infrared digital camera is a cooled MCT detector that delivers extraordinary sensitivity and versatility for viewing large speed
    thermal events.

    one. Infrared Spectral Sensitivity Bands

    Due to the availability of a range of MCT detectors, substantial speed infrared cameras have been created to function in quite a
    few distinct spectral bands. The spectral band can be
    manipulated by varying the alloy composition of
    the HgCdTe and the detector set-point temperature. The
    end result is a solitary band infrared detector with amazing quantum
    efficiency (ordinarily earlier mentioned 70%) and high sign-to-sounds ratio able to detect incredibly small
    ranges of infrared sign. Solitary-band MCT detectors generally tumble in one particular of the five nominal spectral bands revealed:

    • Small-wave infrared (SWIR) cameras – seen to two.five micron

    • Wide-band infrared (BBIR) cameras – one.5-five micron

    • Mid-wave infrared (MWIR) cameras – 3-5 micron

    • Extended-wave infrared (LWIR) cameras – seven-ten micron reaction

    • Quite Extended Wave (VLWIR) cameras – seven-twelve micron reaction

    In addition to cameras that utilize “monospectral” infrared
    detectors that have a spectral reaction in one band, new methods are staying formulated that make the most of infrared detectors that have a reaction in two bands (known as “two coloration”
    or twin band). Illustrations consist of cameras getting a
    MWIR/LWIR reaction masking both of those 3-5 micron and 7-eleven micron, or alternatively selected SWIR and MWIR
    bands, or even two MW sub-bands.

    There are a variety of reasons motivating the collection of the spectral band for an infrared digicam.
    For selected apps, the spectral radiance or reflectance of the objects under observation is what decides the ideal spectral band.
    These apps include spectroscopy, laser beam viewing, detection and alignment, target signature examination, phenomenology, cold-object imaging and surveillance in a marine ecosystem.

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    MWIR spectral array. The broad dynamic range efficiency of the LWIR technique is conveniently stated by evaluating the flux in the LWIR band with
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    scene acquiring the very same item temperature assortment.

    In other words and phrases, the LWIR infrared camera can graphic and measure ambient
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    incredibly scorching objects (i.e. >2000K). Imaging huge temperature ranges with an MWIR technique would have significant worries simply because the sign from large temperature objects would need to be greatly attenuated ensuing in bad sensitivity for imaging at
    history temperatures.

    two. Graphic Resolution and Area-of-Watch

    2.one Detector Arrays and Pixel Measurements

    High velocity infrared cameras are available acquiring several resolution abilities due to their use of infrared detectors that have different
    array and pixel measurements. Purposes that do not have to have higher resolution, significant pace infrared cameras based mostly on QVGA detectors supply superb performance.
    A 320×256 array of 30 micron pixels are identified for their
    extremely broad dynamic selection because of to the use of relatively massive
    pixels with deep wells, very low noise and terribly significant sensitivity.

    Infrared detector arrays are readily available
    in different sizes, the most popular are QVGA, VGA and SXGA as proven. The VGA and SXGA arrays have a denser array of pixels and consequently provide better resolution.
    The QVGA is inexpensive and reveals excellent dynamic selection because of significant sensitive
    pixels.

    Far more not long ago, the know-how of more compact pixel pitch has
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    of fifteen micron pitch, delivering some of the most outstanding
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    owning higher distinction and sensitivity. In addition, with
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    two.two Infrared Lens Features

    Lenses built for high velocity infrared cameras have their have special homes.
    Mainly, the most suitable technical specs are focal length (field-of-check out), F-amount (aperture) and resolution.

    Focal Length: Lenses are commonly determined
    by their focal size (e.g. 50mm). The field-of-perspective of a
    digital camera and lens combination is dependent on the focal length of
    the lens as nicely as the total diameter of the detector graphic
    spot. As the focal duration raises (or the
    detector measurement decreases), the subject of check out for that lens will reduce (slim).

    A convenient on line field-of-perspective calculator for a range of substantial-velocity infrared cameras
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    In addition to the frequent focal lengths, infrared shut-up lenses are
    also accessible that produce significant magnification (1X, 2X, 4X) imaging of little objects.

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