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A document camera, also known as a visual presenter, visualizer, digital overhead, docu-cam, or simply a doc-cam, is a Image resolution image capturing device used to display objects in real-time to a large audience, such as in a classroom or lecture hall. It can also function as an alternative to a traditional image scanner for digitizing documents for archival or digital storage.
The camera is typically mounted on an adjustable arm, allowing it to be positioned over a document or an object. It connects to a projector or a similar video display system, enabling the presenter to display text, images, or objects to the audience. Larger objects can be placed in front of the camera, which can then be rotated as needed.
Document cameras have replaced overhead projectors in many applications. A document camera can enlarge small print and project a printed page. Unlike many overhead projectors, which typically require dimmed lighting, document cameras can often be used effectively in well-lit rooms. Most document cameras can also send a video signal to a computer.
Document cameras were developed to address the need for direct projection of original documents, plans, drawings, and objects without prior preparation. The first document camera, known as a visualizer, was reportedly developed by WolfVision and Elmo and introduced at the Photokina trade fair in 1988. Progressive scan cameras were introduced toward the end of the 1990s. Most modern visualizers are capable of outputting at least 30 Frame rate.
Image sensors typically provide monochrome images. With a 1-chip camera, color information is obtained through the use of color filters over each pixel. The Bayer filter is commonly used, arranging red, green, and blue filters in a pattern where green pixels are twice as numerous as blue or red pixels. Different algorithms are then used to interpolate the missing color information and produce a color image.
A Three-CCD camera module is another method for producing color images. A prism splits white light into its red, green, and blue components, and a separate sensor is used for each color. This technology can achieve color accuracy at higher resolutions, but is more costly due to the use of three CCD sensors.
Modern camera systems used in document cameras can provide high-resolution color images at 30 frames per second. In a 3-chip camera, the measured resolution can be up to 1,500 lines. The image can be adapted to fit common display aspect ratios of 4:3, 16:9, and 16:10.
Some document camera models integrate additional functionality into the light system, such as a synchronized light field or laser markers that indicate the size and position of the imaging area, adjusting simultaneously as the lens zoom.
Document cameras may be equipped with automated systems designed to enhance ease of use and improve functionality and image quality. For instance, permanent auto-focus detection automatically adjusts focus settings whenever a new object is displayed, reducing the need for manual adjustments. Other examples of automated features include automatic iris adjustment, auto exposure, white balance, and automatic gain control.
Motherboards often include a variety of connections to ensure flexibility of use. In addition to HDMI, DVI, and VGA ports for connecting to displays (projectors, monitors, and video conferencing systems), several interfaces are provided to facilitate connection to a computer or interactive whiteboard. These interfaces are most commonly USB, network (LAN), and Serial port. An external PC or laptop may also be connected to the document camera to allow switching between a PowerPoint presentation and a live demonstration. Some models can also handle external storage devices, playing files directly from a USB flash drive or saving images taken during the presentation onto it.
Some document camera manufacturers also provide regular firmware upgrades.
Documents or objects being scanned are not required to make contact with the document camera, increasing flexibility in the types of documents that can be scanned. Objects that have previously been difficult to scan on conventional scanners can potentially be scanned with a document camera. This includes documents such as stapled documents, documents in folders, or bent or crumpled items, which may jam in a feed scanner.
Reduced reaction time during scanning can also offer benefits in context-scanning applications. While ADF scanners are generally more efficient for large batches of standard documents, document cameras can be integrated directly into a workflow or process, for example, at a bank teller station. The document is scanned directly in the context of the customer interaction where it is to be placed or used. Reaction time can be an advantage in these situations. Document cameras usually require a small amount of space and are often portable.
However, when scanning large batches of unstapled documents, ADF scanners may be more efficient compared to document cameras. Document cameras may face challenges with certain environmental conditions, such as poor lighting, which can decrease the quality of scanned documents.
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