An End-to-End Design and Development Life-Cycle for CubeSat class Satellites

Shiotani, Bungo; Fitz-Coy, Norman; Asundi, Sharan

doi:10.2514/6.2014-4194

Cited by 5 publications

(2 citation statements)

References 2 publications

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“…This coupling action could never be accomplished by a singular discipline team, the need for multidiscipline teams in imperative in integral architectural designs (Ulrich 1995) The project management lifecycle is the framework that governs the stages that a project goes through along with the gates needed to proceed to the next stage. While the development of those space systems typically follow systems engineering development process, the product development still exists within the construct of the project management lifecycle (Shiotani, Fitz-Coy & Asundi 2014;Gao, Yang & Liu 2011). Often NASA, or other government agencies require modifications to the project management lifecycle that does not mesh perfectly to the systems engineering development cycle.…”

Section: Small Satellite Market Pd Methodsmentioning

confidence: 99%

A State‐of‐Practice Survey of the Automotive and Space Industry Product Development Strategies

Moore

Adams

Sega

2021

INCOSE International Symp

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Product Development is a process employed by all industries to support creating new opportunities. The approach to product development by the automotive industry is vastly different than the space industry. As disruptive technologies flow into the market, the space industry is in the midst of an evolutionary change. The methods of design, management and architecture are the topics reviewed in this work. From the background of the methods the analysis of each of these industries suggest that there may be an opportunity for further review. As the space industry continues to push into a new frontier of lower cost and quicker turnaround solutions, there can be great benefits to employing parts of the methods honed by the automotive industry. The possibilities of gaining knowledge from the automotive industry could in the future lead toward advancements in product development management and product development architecture methods that could continue fueling the evolutionary changes in the space industry.

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Section: Small Satellite Market Pd Methodsmentioning

confidence: 99%

A State‐of‐Practice Survey of the Automotive and Space Industry Product Development Strategies

Moore

Adams

Sega

2021

INCOSE International Symp

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“…From the start to the completion and disposal are divided into different phases by different organizations. ISRO satellite project life cycle is divided into seven phases as shown in Figure 1, similar to of NASA (Hirshorn, 2016), (Shiotani, et al, 2014) project life cycle for end to end design and development. For the Design and development of polarimetry satellite identical life cycle approach is used with rigorous systems engineering approach for the subsystems.…”

Section: System Engineering and Satellite Realizationmentioning

confidence: 99%

Systems Engineering Challenges in Realizations of Spinning Satellite Versus Rotating Payload to Improve Systems Reliability

Mahto

Meena

Gupta

et al. 2019

INCOSE International Symp

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Satellites are playing vital role in the astronomical study by scientific community. Whereas making a bigger satellite, catering complex mission requirement for scientific study is not viable due to huge realization duration and launch cost. Configurations of astronomical study satellites are quite different compared to earth observation satellites, in such a way that payloads of former may demand rotating mechanisms. A cost effective spinning satellite configuration is studied to meet the payload rotation requirement for space astronomy exploration. On the other hand, accomplishing the essential requirements is a challenge viz. power generation, stringent payload pointing, attitude updates, telecommand establishment, telemetry links, visibility to data reception ground station for a spinning satellite. This paper is intended to bring out the complexity involved and the systems engineering concepts adopted to achieve the mission goal, mainframe elements redundancy, positive energy balance and high systems reliability to build a cost effective spinning small satellite.

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Surveying space debris management methods: Revealing essential requirements for effective solutions

Elahian,

Kazemi

2024

Journal of Space Safety Engineering

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An End-to-End Design and Development Life-Cycle for CubeSat class Satellites

Cited by 5 publications

References 2 publications

A State‐of‐Practice Survey of the Automotive and Space Industry Product Development Strategies

A State‐of‐Practice Survey of the Automotive and Space Industry Product Development Strategies

Systems Engineering Challenges in Realizations of Spinning Satellite Versus Rotating Payload to Improve Systems Reliability

Surveying space debris management methods: Revealing essential requirements for effective solutions

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