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Handheld Outdoor Receivers
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Title | Handheld Outdoor Receivers |
Author(s) | Rui Barradas Pereira. |
Level | Basic |
Year of Publication | 2011 |
The Handheld Outdoor Receivers are devices conceived for pedestrian navigation, usually in non urban outdoor environments. The handheld GNSS units are self-contained devices which can vary somewhat in size. The smallest ones are about the size of small cell phones. The largest ones are the size of a typical television remote control [1].
These portable devices are used mostly for hiking and hiking-related activities such as hunting and geocaching. The rural environments describe areas where the surrounding vegetation and orography often block GNSS satellite signals. In environments where there is a clear line of sight to the satellites, GNSS technology is able to provide location with good accuracy and continuity of service.
Product Description
In contrast with road navigation, the outdoor pedestrian movements take place, in rural environments. Trees and canyons can cause satellite shadow and limit the environments where high-accuracy GNSS data collection can be performed.
In terms of equipments, the Handheld Outdoor Receivers usually have replaceable batteries that can run them for several hours, making them suitable for activities far from an electric power source. The cases are rugged and some are water resistant.
The Handheld units screens are commonly small and the early handheld devices did not displayed maps or color, in order to preserve power. Nowadays, handheld outdoor receivers can be found with large sunlight displays, camera, powerful processors, field-swappable battery, compass and pre-installed embedded software able to show interactive maps, points of interest (or way points), route information and step-by-step routing directions. Many handheld receivers fully support WAAS and EGNOS.
These product are considered as non-critical products, although they can be used on emergency situations, for instance in isolated areas, where the ability of GNSS to provide a precise position can enhance the chances of rescue when hikers are disabled or lost. This procedure requires a mean of communication with the rescue first responders.
The accuracy required by these applications is low. The current accuracy provided by civilian GPS is enough for these applications. Availability, however, can be reduced by heavy foliage and deep canyons in this type of environment.
Waypoints
The most skillful feature of a handheld GNSS receiver is the waypoint which is a physical location determined by GNSS on a handheld unit because they let the user know where he actully is, where he had been, and where he want to go. Capturing user position as a waypoint, while somewhere navigating in the great outdoors is where the waypoint concept is most useful.[2]
The handheld receivers allows to input and save many waypoints right on the device when, and follow a track . The waypoints can also be uploaded onto the device.
Waypoint Navigation is the concept of capturing your position as a waypoint. The reason being a route can be mapped out using a series of waypoints so the user can navigate from one to the next and so on like following a trail of virtual breadcrumbs. [2]
In that way, the user know exactly how to get back, due to the Track Log Recording, Return Back, Compass and Altimeter features, which the concepts are detailed in here.
The waypoint concept can also support other type of task such as Photography Geocoding, or for instance input a waypoint for a specific geographic feature found during hicking activities.
Product Characterization
Typically the handheld outdoor receivers dont have external attachments. Although, some receivers models can run on external power, (e.g., from a car), connect to an optional external antenna through a jack or connect to a laptop or PDA for expanded uses.
From a technical perspective Handheld Outdoor Receivers were one of the most simple and revolutionary navigation devices. The receiver simply points a straight line towards the next waypoint in the track (loaded or recorded by the user). At the time of product breakthrough, no maps were required and the display was a simple monochromatic screen to save battery. Nowadays, the user interfaces features can vary substantially, but usually the screens are able to show satellite constellation, maps, electronic compass, bearing or heading screen, coordinates, tracks with details, speedometer and odometer.
Product Examples
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