The Army's Flexible Display Center (FDC) at Arizona State University (ASU)

Abstract

As Army transformation unfolds through the Future Combat Systems (FCS) program, the ability to perform essential command, control, communications, computers, intelligence, surveillance, reconnaissance/mobility (C4ISR/M) functions for combat vehicles and dismounted warfighters is vital. These applications will require some kind of compact, thin-profile display. Unfortunately, key flat panel display features being produced for today's commercial electronics market make them unsuitable for emerging military applications. Conventional displays tend to consume too much power and are usually made out of glass. This feature means that they require expensive and bulky "ruggedization" before they can be incorporated into military systems, adding significant size and weight to the actual component. For the dismounted Soldier, the high-power requirements of current displays compel the Soldier to bear the additional weight of batteries during operations. Since the late 1990s, the Defense Advanced Research Projects Agency and the Army have been investigating a number of innovative new flat panel display technologies that can be made on unbreakable substrates such as thin metal foils or even sheets of plastic. These "flexible display" technologies would significantly improve many of the size, weight, and power characteristics of today's commercial displays. Looking forward, they also promise lightweight, large-format displays that could be folded or rolled up for storage or transportation. By the early part of this decade, primitive prototypes of a number of flexible display technologies developed under DoD programs had been demonstrated. However, the efforts to develop these prototypes revealed a number of challenges that must be met to perfect the technology to the point that it can be reliably manufactured.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2007

Accession Number

ADA490359

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