Build-to-Print designs, or rebuilds of flight proven designs, are attractive to mission stakeholders, as they give the appearance of minimal engineering development cost, risk, and schedule. The reality is that seldom is a project an exact duplicate of a predecessor. Mission reclassification, improvements in hardware, and science objective changes can all serve as a source of requirements and design creep and have ramifications often not fully anticipated during initial proposals. The Thermal Infrared Sensor Instrument (TIRS) was a late addition to the LandSat-8 program to provide infrared imaging to measure evapotranspiration for water cycle management. To meet the launch requirements for LandSat-8, instrument design life requirements were relaxed, the sensor development expedited, and technology development was minimized. Consequently, TIRS was designed as a higher risk instrument, with less redundancy than an instrument critical to mission success. After the successful LandSat-8 launch in 2013 and instrument performance, a rebuild of the instrument for the next LandSat spacecraft was included in the baseline mission success criteria. This paper discusses the technical challenges encountered during the rebuild of the TIRS-2 (Thermal Infrared Sensor 2) instrument and the resultant impacts on the thermal system design.
Design and Requirements Creep In A Build-To-Print Mission
2017
7 pages
Report
Keine Angabe
Englisch
Unmanned Spacecraft , Manned Spacecraft , Space Technology , Quality Control & Reliability , Creep properties , Evapotranspiration , Landsat satellites , Product development , Systems engineering , Infrared imagery , Water management , Infrared detectors , Telescopes , Costs , Risk , Payloads , Design to cost
Build-to-print B-1 composite slat
Tema Archiv | 1977
|Geotechnical Requirements in the Design — Build Selection Process
Online Contents | 2014
|