Integrating Technology Obsolescence Considerations Into Product Design Planning

Feldman, Kiri; Sandborn, Peter

doi:10.1115/detc2007-35881

Cited by 36 publications

(40 citation statements)

References 18 publications

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“…Electronic products such as monitors, printers, mobile phones and laptops tend to have relatively short lifespans compared to military aircraft, avionics systems and power grids which require decades of support services and high levels of investment and follow-on development (Feldman and Sandborn, 2007). Accordingly, life cycle mismatch (Solomon et al, 2000) occurs when the parts can become obsolete before the product's life cycle comes to an end and vice versa (Bradley and Guerrero, 2009).…”

Section: Technology Obsolescence: Definitions and Scopementioning

confidence: 99%

Integrated vs. add-on: A multidimensional conceptualisation of technology obsolescence

Amankwah‐Amoah

2017

Technological Forecasting and Social Change

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In the past two decades, technology obsolescence has become an increasingly common feature of the global economy, often precipitated by new technological breakthroughs and innovations.Although a number of companies persist with obsolete technologies until disaster strikes, our understanding of the dynamics of technology obsolescence and why some firms persist with obsolete technologies remains largely underexplored. This conceptual paper seeks to fills these gaps in our understanding by developing a four-domain framework to explicate the dynamics of technologies' obsolescence, which takes into account the components in determining different types of obsolescence. The framework articulates two types of life-cycle match and two types of life-cycle mismatch. The article also contributes to the literature by delineating an integrated framework of firm-specific and market-based factors which account for some firms' persistence with obsolete technologies. Amassing and utilising the latest information to update their technologies can help firms enhance their competitiveness. The wider implications of the analysis for public policy and directions for future research are examined.

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Section: Technology Obsolescence: Definitions and Scopementioning

confidence: 99%

Integrated vs. add-on: A multidimensional conceptualisation of technology obsolescence

Amankwah‐Amoah

2017

Technological Forecasting and Social Change

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“…As electronic components, particularly aircraft avionics, grow older they often break in unanticipated ways requiring more frequent repairs at costs of 1.5 to 5 times the original procurement cost (Rhea, 1998;Marion, 2001;Luke et al, 1999;Pope et al, 1998;Feldman and Sandborn, 2007). McDermott et al, (1999) analyzed the financial costs required to respond and solve obsolescence issues.…”

Section: Repair Costs For Avionicsmentioning

confidence: 99%

“…Many authors of obsolescence research agree that electronic subcomponents have shorter lifecycles that the products which they support, increasing obsolescence rates throughout the electronics industry (Pecht and Das, 2000;Feldman and Sandborn, 2007;Condra, 1999;Feng et al, 2007;Meyer et al, 2004;Craig, 2002;Mont, 2004). Optimizing a lifecycle is often determined by the primary user of the item based on total lifecycle costs, total lifecycle benefits, or other user specific requirements that may determine the usefulness of the product.…”

Section: Lifecycle Changesmentioning

confidence: 99%

“…Diminishing Material Supplies and Material Shortages is the loss or impending loss of manufacturing suppliers of a product, and/or its components or parts, to include shortages of raw materials to produce items required to support a DoD weapon system (Overstreet, 2002;Meyer et al, 2004;Singh et al, 2002;Pecht and Das, 2000;Sandborn, 2007;Solomon et al, 2000;Feldman and Sandborn, 2007). While the majority of DMSMS cases involve electronic parts, primarily integrated micro circuits, and conductors, DMSMS can and does impact all Federal Stock Classes (FSC) of equipment.…”

Section: Dmsmsmentioning

confidence: 99%

“…This model heavily relies on continuously accurate data, with forecast data becoming more accurate as obsolescence approaches. Several authors have offered modified forecasting models, each with its own limitations and parameters (Henke and Lai, 1997;Feldman and Sandborn, 2007;Sandborn et al, 2005;Sjoberg and Harkness, 1996;Blackman and Rogowski, 2008). …”

Section: Gary Maddux Prepared a Technical Report For The Us Army Aviamentioning

confidence: 99%

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Minimizing the Risks of Diminishing Manufacturing Sources and Material Shortages: Evaluating Electronic Avionics Lifecycle Sustainment Strategies

Underwood¹

2011

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The Air Force faces increasingly difficult challenges to maintain and sustain its highly technical weapon systems, struggling against rapid technology advancement and diminishing lifecycle for electronic systems. The reduced lifecycle times have not only This project utilizes two integrated models, the first, to determine electronic avionics demand requirements for a fleet of 96 aircraft over a 30-year period, and the second to evaluate sustainment cost over time for a) re-engineering strategy, b) lifetime buy strategy, and c) programmed redesign strategy. Statistical analysis and long-term cost comparison of these three strategies will provide a framework to evaluate specific weapon systems for future studies and to develop an attainable low-cost sustainment strategy.

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References

2012

Strategies to the Prediction, Mitigation and Management of Product Obsolescence

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Integrating Technology Obsolescence Considerations Into Product Design Planning

Cited by 36 publications

References 18 publications

Integrated vs. add-on: A multidimensional conceptualisation of technology obsolescence

Integrated vs. add-on: A multidimensional conceptualisation of technology obsolescence

Minimizing the Risks of Diminishing Manufacturing Sources and Material Shortages: Evaluating Electronic Avionics Lifecycle Sustainment Strategies

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