Handheld GPS Devices – Analyze Your Needs Before You Purchase!

Handheld GPS devices represent a special category of all available GPS (Global Positioning System) receiver units used in various situations and for different applications. The major applicability or usefulness of handheld, portable GPS devices can be divided into two distinctive categories, i.e. for outdoor leisure and sport activities like hiking, trekking, climbing, camping and running and, secondly, for industrial applications like land surveying and position measurements at construction sites. Utilizing the GPS navigation satellite system, correct location of the GPS receiver can be determined by retrieving exact longitude, latitude and altitude coordinates. Today, most GPS receiver units, whether handheld or not, communicate through radio signals with at least four GPS satellites, whereby three satellites determine the exact location of the receiver and the fourth satellite is used for correcting the receiver’s clock. After the Selective Availability regulation, which provided certain accuracy reservation for military use, was ended in 2000, the precision of civilian GPS improved from about 100m to about 20m.

Handheld GPS devices provide tremendous flexibility and convenience for the user. Not only can the user continuously monitor his, or her, exact and current geographical location and path of travel, but handheld GPS devices can be fitted for relaying with central offices or base stations that can track or follow the user for security and safety reasons. For example, GPS devices that can communicate with and supply coordinates to a central station are very popular by mountain climbers and hikers. As the GPS system has developed and improved over the past years, many new applications have emerged for the users of handheld GPS devices. Not only can users determine their current location, but also obtain a multitude of additional and supportive information through geographical maps, inserted in the GPS receiver units, such as precise navigation, locations of restaurants and hotels, weather reports, tourist attractions, etc. Currently, there are a number of companies producing and offering many different handheld GPS devices. Some of the best known include, Garmin, Magellan and DeLorme. The devices have a broad range of features, attributes and, of course, price tags. Before selecting a particular handheld device, it is important to know what you will be using it for. For example, a GPS device used for hiking may be less applicable for mountain climbing or, even less, running. Obviously, devices for industrial applications have particular requirements and qualities. If you are looking for a handheld GPS device that can be used in different circumstances, a multipurpose unit could be the answer. Furthermore, you need to have an idea of what features you are interested in or require in addition to the standard GPS and mapping functionality, e.g.:

  • Touch screen window
  • Color screen or black and white
  • Built-in camera (like in mobile phones)
  • SD (memory) card expandability
  • Voice recorder
  • Built-in electronic compass
  • Barometer
  • MP3 Music Player
  • External antenna connector
  • Etc. etc.

Obviously, as the feature list increases, so does the price. Another important thing to keep in mind is considering what geographical maps may be included or applicable to your needs, e.g. outdoor and recreational maps, street maps or marine maps. Most handheld GPS devices come with some pre-loaded or built-in geographical maps, for example a base map of the USA and Canada containing major highways, city centers, bodies of water and more. You need to find out whether you need additional detailed maps that can be added to the handheld device, for example detailed cartographic maps, topographic maps, and more.

Still another important issue to keep in mind is the GPS software that is normally included with the purchase of a new handheld GPS for uploading GPS data to a computer. By that you can conveniently view all your maps, waypoints, trails and routes from your computer screen. Many other interesting advanced features and possibilities can be implemented with an appropriate handheld GPS receiver including, playing “hide-and-seek” and “treasure-hunting” through geocaching or importing your tracks, waypoints and routes into Google Earth for tracking and monitoring. In short, Handheld GPS devices offer a plethora of wonderful possibilities and options.

For maximizing its benefits, you should carefully consider your needs and requirements before you actually purchase a new handheld GPS. Common retail prices for handheld GPS devices range from $100 up to $800USD depending on built-in or available features and attributes.

Olafur Ingthorsson is a Consultant and an Internet Marketer. His passions include IT and Communications technologies, including handheld GPS devices, the outdoors and triathlon sports.

Handheld GPS Devices

Analyse Your Needs Before Purchasing a Handheld GPS Device

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February 26, 2010 | Tags: , , , , , , , , , , , , , , , , , , , , | No Comments »

Preventing GPS Disasters

 

If your GPS device told you do drive off a cliff or ford a raging river, would you do it? You may respond, of course not, that’s stupid. Unfortunately, many people substitute technology for common sense, often with tragic results.

Satellite navigation systems are changing the way in which we navigate from place to place by land, sea or air; in remote wilderness areas or through congested urban streets. The GPS system has been called the greatest advance in outdoor navigation since the invention of the compass and has become a widely used aid to navigation worldwide, a useful tool for map-making, land surveying and recreational navigation. An estimated 50 million navigation devices, including in-car systems, handheld or portable units and smart phones, will be in use in the United States this year.

Whether you’re prospecting, hunting, fishing, cross-country skiing, or taking a hike in the back country, a GPS receiver can help you reach your destination and return safely – but only if you know how to accurately use it and recognize its limitations.

The Global Positioning System (GPS) is a satellite-based navigation system made up of a complex network of more than 30 satellites placed into orbit by the U.S. Department of Defense. The GPS network, also called NAVSTAR, was originally intended for military applications, however when Korean Air Lines Flight 007 was shot down in 1983 after straying into the USSR’s prohibited airspace, President Ronald Reagan issued a directive making GPS freely available for civilian use as a common good. The GPS works all the time, in any weather condition, anywhere in the world, 24 hours a day.

Powered by solar energy, the numerous satellites that make up the GPS space segment orbit at approximately 12,000 miles above the earth. Moving constantly at speeds in excess of 7,000 mph, the satellites each make two complete orbits of the earth in less than twenty-four hours. The GPS satellites are kept on track by small rocket boosters. Primarily operated on solar power, the satellites also employ backup batteries in anticipation of power loss during a solar eclipse.

The first GPS satellite was sent into orbit in 1978, with a full constellation of satellites achieved in 1994. Weighing approximately 2,000 pounds, each satellite is about 17 feet across with the solar panels extended and is built to last about ten years. Replacement satellites are constantly being built and then launched into orbit.

GPS signals can be affected by multi-path issues, where the radio signals reflect off surrounding terrain such as tall buildings, mountains or large obstructions. This increases the travel time of the signal and can cause inaccuracy. The number of satellites visible, or the more satellites a GPS receiver can “see” will also affect accuracy. Electronic interference, buildings, terrain or sometimes even dense foliage can block the signal reception and cause positioning errors or prevent a position reading at all.

Anomalies like high static discharge during lightning storms, humidity, ionized air and barometric pressure can definitely cause false information, data error or miscalculations. A satellite signal slows as it passes through the atmosphere. Ionosphere and troposphere delays may cause distortion. GPS units normally will not work indoors, underground or underwater.

In automotive GPS receivers, metallic features in windshields, such as window tinting films or defrosters elements can degrade reception inside the vehicle. Receiver clock errors are also common. This type of error occurs because a receiver’s built in clock is not as accurate as the atomic clocks onboard the GPS satellites and will reflect varying timing errors. These distortions can result in positioning errors of hundreds of miles.

Unreliable data is also a major contributor to GPS errors. With an incalculable number of roads and millions of miles of ground to cover, it is impossible for any data system to be 100% accurate. A road network is a constantly changing entity; roads are diverted or closed, construction reroutes traffic while weather affects road conditions. The data feed used in GPS units is dated. Fresh updated content may not be available for several months. It is important to remember that this data is updated quarterly at best and in some cases only released twice a year.

Although GPS Navigation is becoming increasingly popular, these units have the ability to highlight human error. A GPS devise will attempt to advise you depending on the destination your have entered. An incorrect address or a mistake in spelling are common errors. Instead of making our lives easier, some of these devices are so technologically enhanced they are very difficult to use. User mistakes account for the majority of GPS errors, however a GPS receiver has no way to identify and correct these mistakes.

GPS technology isn’t perfect! It’s imperative to pair its directions with a healthy dose of common sense. Many drivers exhibit a surprising willingness to rely on gadgets instead of experience. They are finding that satellite navigation may replace paper maps, however following the GPS’s not always reliable directions, many users are getting hopelessly lost, hitting dead ends or road closures and even swerving into oncoming traffic.

Even if you are not blindly following erroneous, computer-generated instructions, research studies tell us that “using GPS while behind the wheel is actually more distracting and less safe than unfolding a paper map and using it to find your way”. A large portion of drivers, according to the study, relied exclusively on their GPS unit for directions, “rendering them completely oblivious to the world around them.”

Nandu Green is a lifestyle portal, offering high-quality, unique, intriguing and innovative merchandise from around the globe.

Marlene Affeld’s passion for the environment and all things natural inspire her to write informative and insightful articles to assist others in living a Green Lifestyle. For more Green Living info visit Nandu Green at http://nandugreen.com

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February 22, 2010 | Tags: , , , , , , , , , , , , , , , , , , , , | No Comments »