A method for a short-term forecast of the absorbed dose accumulation dynamics on the international space station based on radiation monitoring system data

Lishnevskii, A. E.; Benghin, V. V.

doi:10.1134/s0038094614070144

Cited by 1 publication

(2 citation statements)

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“…The R-16 detector ( 2 – 9 ) is a combination of two Argon filled ionization chamber with two different shielding. It has been also the first active detector in use in the ISS.…”

Section: A Brief Description Of the Detectorsmentioning

confidence: 99%

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Radiation Measurements Performed with Active Detectors Relevant for Human Space Exploration

et al. 2015

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A reliable radiation risk assessment in space is a mandatory step for the development of countermeasures and long-duration mission planning in human spaceflight. Research in radiobiology provides information about possible risks linked to radiation. In addition, for a meaningful risk evaluation, the radiation exposure has to be assessed to a sufficient level of accuracy. Consequently, both the radiation models predicting the risks and the measurements used to validate such models must have an equivalent precision. Corresponding measurements can be performed both with passive and active devices. The former is easier to handle, cheaper, lighter, and smaller but they measure neither the time dependence of the radiation environment nor some of the details useful for a comprehensive radiation risk assessment. Active detectors provide most of these details and have been extensively used in the International Space Station. To easily access such an amount of data, a single point access is becoming essential. This review presents an ongoing work on the development of a tool that allows obtaining information about all relevant measurements performed with active detectors providing reliable inputs for radiation model validation.

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“…The R-16 detector ( 2 – 9 ) is a combination of two Argon filled ionization chamber with two different shielding. It has been also the first active detector in use in the ISS.…”

Section: A Brief Description Of the Detectorsmentioning

confidence: 99%

“…The DB-8 ( 2 – 9 ) detector is similar to the Liulin (see below). Four DB-8 units are a part of the ISS radiation monitoring system (RMS).…”

Section: A Brief Description Of the Detectorsmentioning

confidence: 99%

Radiation Measurements Performed with Active Detectors Relevant for Human Space Exploration

et al. 2015

View full text Add to dashboard Cite

show abstract

A method for a short-term forecast of the absorbed dose accumulation dynamics on the international space station based on radiation monitoring system data

Cited by 1 publication

References 2 publications

Radiation Measurements Performed with Active Detectors Relevant for Human Space Exploration

Radiation Measurements Performed with Active Detectors Relevant for Human Space Exploration

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