The set-up of an LCD's clock and phase controls is critical to obtain the best possible display quality. Barco's Automatic Phase Adjust (APA) functionality constantly adjusts the sample clock in the display to maintain a crisp image.

The manual adjustments on a display to create a crisp and clear image are not always straightforward if the analog video signal is unknown, exotic, or if you just want to see a correct display according to your input. Autoset is the ability to have your display set up automatically within maximum 8 seconds, while saving the settings for future use.

Based on its experience with Cockpit Head Down Display definition and production, Barco recently introduced the new 'CHDD-2000' family. It shows a definite technological advance on several key points. This white paper focuses on the innovations that take the next-generation CHDD-2000 to a new level.

This paper presents an overview of Barco's CommonSENSE software library which provides GPU-accelerated video capabilities for operator positions in a networked environment. CommonSENSE performs optimized, high performance video manipulation and presentation operations and simplifies the rapid development of visual application programs involving Full Motion Video.

There are many variants of spatial and/or temporal dithering algorithms on the market that work with small groups (e.g. 4) of pixels and/or frames, respectively. The Barco algorithm works over 64 pixels and 64 frames, yielding a display image that has no perceptible dithering artifacts.

FlexiVision III, Barco's modular video-processing platform, brings advanced capabilities to the military surveillance and reconnaissance market. FlexiVision III is an integrated solution for video and graphics mixing, image processing and network-centric imaging.

Cleaning your avionics displays regularly and appropriately is vital for sustaining optimal image quality and safety in your flight deck. In this white paper, we have listed ten practical tips for the maintenance of your cockpit screens.

Rugged large format LCD displays up to 80" will be required by all branches of the military. These displays will be used for collaboration, situational awareness, and information fusion in critical command and control situations. New challenges arise in adapting these larger LCDs to meet requirements for ruggedness and survivability.

The delay in time between initiation of an event and visualization of it on the screen is a critical factor in the defense world. Especially in ‘man in the loop’ applications there is a need to keep that time (latency) as short as possible.

This white paper deals with the root cause of Liquid Crystal Display (LCD) flicker when displaying a sonar image and discusses different technologies to avoid flicker and artifacts.

Multi-core devices can help meet the constantly growing demand for more powerful processing platforms for safety-critical applications. However, to preserve the determinism, and to assure the certifiability of the platform, one should pay special attention to the device selection, have solid knowledge of the internal operation of the device, and take design decisions that mitigate the potential deterioration of the system's determinism.

This paper presents Barco's concept of a 'networked visualization' infrastructure as a complement to existing and future architectures for naval applications and, in particular, for Combat Management and Combat Information Center (CiC) Room Systems.

Barco has developed unique bonding capabilities to protect the LCD against extreme environmental conditions and to significantly improve optical performance and protection against condensation.

This paper describes a method and practical implementation to stabilize video sequences obtained from a camera mounted on a moving platform.

As touch technology has evolved to an established feature for rugged displaysAs touch technology has evolved to an established feature for rugged displays, it has become more important than ever to define the most appropriate technology for use in rugged and harsh environments. Barco has integrated a wide range of touch technologies in its rugged display range, each with its specific signature and application area.

Motion imagery represents a core capability for Unmanned Vehicle Systems (UVS). During critical surveillance and situation awareness operations, the capture of high quality motion imagery maximizes the benefits of deployed mission resources and enables advanced downstream processing, exploitation, and dissemination.

COTS LCDs are initially made for use in benign environments with an ambient temperature limited to +55°C. For its LCD display range for Command & Control however, Barco uses Commercial-Off-The-Shelf (COTS) LCD glass that is being ruggedized for use in extreme environmental conditions such as humidity, low temperatures, shock & vibration.