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    Locate Cell Phone Gps

    By on Monday, November 28th, 2011 | No Comments

    Locate Cell Phone Gps
    Outdoor activities can pose dangers during the monsoon to the monsoon in full swing, it is important that people remember how to stay safe while enjoy the many outdoor wonders that surround our quaint little town in the desert.




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    Choosing the Right Type of GPS

    By on Saturday, September 10th, 2011 | No Comments

    <p>

    In order to make the right choice from all of the various GPS systems available in today’s market, it is necessary to have a practical understanding of what they offer, and what the user can  expect from the device.

    There are four major components that need to be looked at.

    1.  GPS receiver (or antenna).   GPS receivers use signals from satellites which orbit the Earth at known positions. Each satellite has its own identification code and sends a signal which the GPS receiver can use to calculate the distance from the device to that satellite.

    2.  The portion of the system which uses the received information to estimate where the device is located on an internal map.

    3.  The various capabilities for route planning and recording, which vary from unit to unit.

    4.  Finally, the display portion (which can vary considerably from limited location information to full color three dimensional maps of the immediate surroundings and advised route).
    Since all GPS systems are based on the same premise, it is a good idea to at least be aware of the underlying technology so that you can make an informed decision when choosing which system is best suited for you.

    Much like regular triangulation, by using 3 to 4+ signals, the device finds the point in space at which the spheres representing the distance from each satellite intersect.  This allows the device software to estimate its own position by finding that point.
    Using this location information, the software can then pinpoint the devices location on a map, then use the information for a number of operations, from simply displaying the location, to mapping a proposed route.

    The three standard classes of GPS system are road, hiking and maritime.  Each class is further subdivided into other types which offer different features depending on the users intended use and the environment within which they will be operating.
    It is important to remember is that this technology does not allow for the transmission of actual mapping data via the satellites. It is purely concerned with identifying the location of the device.

    Once you have identified your exact needs and expectations regarding your device, you are ready to assess your options and make a selection.

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    The Gps Navigations Lead You In The Right Way

    By on Sunday, August 21st, 2011 | No Comments

    GPS navigation is the device which can help users to position the accurate present location and calculate the itinerary based on the given destination, and then leads the users to the destination by the map showing and audio prompt. Now the GPs navigations are widely applied in the traffic, tourism, and military and so on. Generally we talk about the car GPS.

    The operation of the GPS navigations relies on the GPS which is short for the Global Positioning System. The GPS system is comprised of the satellite in space, surface-monitoring and subscribers’ access. The GPS system is designed for the military purpose at first. But now it’s not limited in the military field, but expanded to the car navigation, atmosphere watch, geodetic survey, sea rescue and manned spacecraft detection.

    In addition, the car navigation system is required for the operation of the GPS navigation. The GPS navigation can only receive the data from the GPS satellite and calculate the information of the location, direction, running speed and time of users, but is not capable to calculate the route. In order to realize the route navigation, it requires the car navigation system including the hardware equipment, electronic map and navigation software.

    In conclusion, a whole GPS navigation is comprised of the chip, antenna, processor, RAM, screen, speaker, key-press, expandable socket and map navigation software. The more the satellite the GPS navigation receive, the strong the signal getting and the steadier navigation is developed.

    The basic functions of the GPS navigation are as follows:

    The map search. You can search the location of your destination on the operation terminal. You can record and save the location information of your destination. You can also share the information with others. It can help you check the information about the gas station, hotel and cash machine around you or around other objects.

    The route planning.     The GPS navigation system will automatically plan a route according to your given starting point and destination. You can settle some approach points when you plan the route. Also you can set up to avoid the high speed.

    The audio navigation. The driver will be informed the driving information by the means of voice beforehand. Just like a guide tell you how to drive to your destination. It’s the most important function that you can arrive at the destination without observing the operation terminal.

    The image navigation. The map will be displayed on the operation terminal. And the present location of the car, the speed, the distance to the destination, the planned prompt route and the driving information can also be displayed.

    Replanning the route. If you failed to drive as the planned route or go wrong, the GPS navigation can replan a new route to your destination for you.

    Due to the convenience and the applicability, the GPS navigation is widely accepted and followed by the consumers since the GPS navigation is applied in the car field. With the large needs of the GPS navigations on the market, the GPS navigations are developed on the super highway.

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    What You Want to Know About GPS Receivers

    By on Thursday, August 4th, 2011 | No Comments

    <p>

    By now, you’ve likely heard about this hot new technology called GPS. Handheld GPS receivers are popular items that are being used by everyone from outdoors enthusiasts to average drivers. But, how many of us really understand the technology behind these modern-day marvels?

    There is a whole lot of power and capability packed into a GPS receiver. They are linked to complex satellite systems in outer space, providing a reliable navigational system to users on earth. Many new cars have GPS receivers included as standard equipment. Hikers use them to find their destinations, and treasure hunters rely on them for Geocaching excursions.

    Simply, a GPS is an electronic device that can determine one’s precise location on earth.  The entire system is anything but simple; and the GPS receiver is but a single and minute part of this immense network. GPS is the short form of Global Positioning System. This very large navigation system was developed and implemented by the United States’ Department of Defense (DOD). The system is composed of a network of 27 satellites, various ground stations located at points throughout the world and individual GPS receivers. Most of the 27 satellites in the GPS are active, and continuously send radio signals. GPS receivers use these signals to determine their geographical location.

    Function
    The primary function of a GPS receiver is to pinpoint its actual location on earth using the signals it intercepts from GPS satellites. To do this, the GPS receiver must be able to locate and intercept signals from three or more GPS satellites. After intercepting the signals, GPS receivers use basic principles of mathematics called triangulation or trilateration to compute its actual position. Before any triangulation calculation can be implemented, however, the GPS receiver must verify two points:

    1- The positions of at least 3 satellites
    2- The distance between each satellite and the receiver.

    GPS receivers decode the signals in order to determine the locations of at least three GPS satellites. The signals transmitted by GPS satellites are radio signals, and each contains three different bits of information: ephemeris data, almanac data and a pseudorandom code. The ephemeris data is the information that the GPS receiver needs to be able to determine the actual position of the satellite transmitting the signal.

    The distance of a GPS receiver to a satellite is measured using the signal’s speed, or the time delay from the initial transmission of the signal, to its reception by the GPS. From this speed or time difference, the GPS receiver calculates the satellite’s distance.

    With information about the location of at least three or four satellites, along with their individual distances, a GPS receiver utilizes the basic principle of triangulation to calculate its actual position in terms of altitude, latitude and longitude.

    Accuracy
    GPS receivers are incredibly accurate, usually to within twenty meters of radius. It is possible, however, to increase this accuracy level using supplemental technologies. Some GPS receivers using multiple parallel channels can achieve an accuracy level to within fifteen meters. More complex systems such as DGPS (Differential GPS) and WAAS (Wide Area Augmentation System) can reduce this range to an impressive three meters.

    Despite the use of these supplemental technologies, there are still many factors that can cause even the best GPS receivers to broadcast inaccurate locations. Among these factors are:

    * Number of visible satellites
    * Radio signal delays caused by the passage through the ionosphere and troposphere
    * Signal multipath (bouncing of the signal as it hits an object)
    * Inaccuracy of GPS receiver clocks
    * Ephemeris errors (inaccuracy of the satellites’ reported locations)
    * Poor positioning of satellites (i.e.: satellites in a linear position, or in a tight grouping)

    Some, but not all, of the GPS errors caused by these factors can be remedied by the software that is packaged with personal GPS receivers. If you are having difficulty with the accuracy of your GPS receiver, check your user guide or refer to the software to see if the problem can be fixed.

    Technology has given us wonderful gifts and powers beyond imagination. A GPS receiver is one technological wonder that is so accessible, many people use them on a daily basis. If you travel locally or across country, or enjoy exploring the great outdoors, pick up a GPS receiver and you’ll always be able to find your way home.

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