Posts Tagged ‘Global Positioning System’

What is GPS? You’ll be surprised HOW IT WORKS

Posted by map on February 9th, 2010

Author: KALP SYSTEM (530)50
Modified on 17/01/2009

Much talk in the day to day . We took in the car or pocket, some even on a clock and not even know it. But what these acronyms mean? Where do they come? I will try to tell you the clearest possible way the origin, meaning, operation and types of that we find today. WHAT IS THE GPS The (GPS) or (its correct name is -GPS1) is a that enables us in the place we’re in the world (is worldwide, unlike the Russian system GLONASS) to determine our position or that of an object to within a few meters, but could be improved. This technology has its origin and development in the military. Specifically, is currently responsible for the of the USA. In the next version, GPS III, will be a branch that is not dependent on the military field. HOW IT WORKS Although one might think the is placed in the car, the reality is that this element is only one part, namely one third of the entire system. What we have between the hands is only the receiver. For this element we need to be of some , 27 in total, which orbit the . These teams have a lifespan of about 8 years, after which generally are replaced with more modern ones. Power is receiving solar cells. The circle the and their orbits are calculated so that at any time and from anywhere on have at least six are visible by our receiver. That everything happens as planned in charge of monitoring stations that synchronize the of the and alter the trajectory and orbit. These data will be crucial if our receiver then know where we stand. Receivers to calculate their position, they need the following information: ? The exact location in space of at least three . ? The exact distance between himself and each of those . ? The exact time at which the satellite transmitted the information received. Briefly, because the entire process is complex and does not interest us, each of the constantly transmit their exact position, its unique identifier, information from the satellite’s orbit, and very importantly, the exact time of which was sent transmission. With these data, the receiver can calculate the time it took to travel information and using triangulation to calculate its 3D position. With more is achieved slightly higher accuracy. Basic is that the clocks of all the parts are very precise and are perfectly synchronized. The ideal is to have an atomic clock at the receiver, but its price is infeasible, so you place a normal quartz clock adjusts its time with the . Moreover, theirs will be adjusted also by ground stations. As for timing, it is considered that the signal travels at the speed of light and necessary adjustments are made by small variations due to the atmosphere. ACCURACY OF GPS The accuracy of GPS systems can vary depending on many factors: weather, number of visible , natural or artificial barriers? In general, captured more than 7 , GPS accuracy is about 2.5 meters for 95% of the time, albeit with DGPS () is available within 1 meter. Until 2001, this had to be added to the random error introduced due to U.S. military technology. However, since then there is no such fact was called Selective Availability. As for the DGPS correction is applied in the receiver with data from ground stations, they always have well defined coordinates. When receiving data from , the station calculates its exact position to increase accuracy, as we have said may even be + / – 1 meter. Browser types Currently, a consumer may find the following basic types of browsers: ? Handheld GPS. ? Mobile phone with integrated GPS or agenda. ? GPS integrated into vehicles. ? GPS receivers for use with other equipment such as phones. For the ultimate in personal pleasure that I recommend Garmin for my use and knowledge is one of the best and affordable for the market.

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What is the Global Positioning System (GPS)

Posted by map on February 7th, 2010

Author: KANATAONLINE
Modified on 16/11/2007

The (GPS) or (better known by the acronym GPS although its correct name is -GPS1) is a () which allows to determine everyone’s position an object, a person, vehicle or shed, with an accuracy up to centimeters using ; usually a few meters. Although his invention is attributed to French and Belgian governments, the system was developed and installed, and is currently operated by the of the United States. GPS works through a network of 27 (24 operational and 3 back) in orbit over the globe at 20,200 km with trajectories synchronized to cover the entire surface of the . When you want to determine the position, the device used to it automatically locates at least four in the network, which receives signals indicating the position and watch each of them. Based on these signals, the device synchronizes the GPS clock and calculates the delay of the signals, ie the distance to the satellite. By “triangulating” calculates the position in which it is located. The triangulation in the case of GPS, unlike the 2-D case is to ascertain the angle with respect to known points, is based on determining the distance of each satellite relative to the measuring point. Knowing the distance, is easily determined one’s position relative to the three . Knowing well the coordinates or position of each of them emitting the signal, we obtain the absolute position or actual coordinates of the measuring point. Also extreme accuracy is achieved in the GPS clock, similar to that of carried on board each satellite. The former Soviet Union had a similar system called GLONASS, now managed by the Russian Federation. Currently the European Union tries to launch its own , called ‘Galileo’.
ome mobile phones can be linked to a designed for that purpose. They tend to be independent modules that communicate with the phone wirelessly via Bluetooth and to provide the positioning data, which are interpreted by a browser program. This application of GPS is particularly widespread in mobile phones operating on the Symbian operating system and PDA with Windows Mobile but Nokia released the N95 with integrated GPS module

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Turn your cell phone into a GPS

Posted by map on February 2nd, 2010

Author: ELPROGRESO
Modified on 14/08/2009

With a mobile phone with internet connection, even without the GPS (), Google can locate roughly where you can find one through the antenna of the device.

In the blog announced the new feature named My LocationStill in test stage, which lets you put Google on the place which is a mobile, with about 1,000 meters of error.

According to New York Times, Google noted the locations of the antennas due to data sent by users of GPS phones that connect to the internet, allowing mapping of their positions.

This tool works with handsets equipped with Java systems, BlackBerry, Windows Mobile or Nokia / Symbian. However, according to a discussion forum, some users fail to make it operate.

Although this program is not as precise as , allowing located at a meter margin of error, allows for indications such routes.

It will also help develop a new advertising system, an item in which Google has positioned itself as the world leader in Internet. Thus, when searching? Pizza? on the phone, all nearby pizzerias are marked on the map.

Because the data megabuscador yet to mature on the streets of Buenos Aires and other cities in Argentina, this service is not available

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GPS. Tips for choosing which to buy.

Posted by map on February 1st, 2010

Author: FARADAGA
Modified on 20/06/2009

Before scrutinizing the that define the browser, is essential to know what they are and how these devices work. Although popularly known as GPS, this is a wrong sense, since GPS is a positioning technology ( or ) which defines the position at each moment on from a device capable of capturing the signals from different that turn our planet. And these devices are , whose primary function is to determine the time lag in came the satellite signals, calculate its position and translate it into the shown to the user. From these basic functions, add additional ones that help make it easier to use and guide us to our destination with almost exact precision. Both features, comfort in use and precision are vital not only because it meant a savings of our time, but because they help keep the driver to interfere unless other drivers.

There are many factors to consider if you want to make a good addition, especially if one takes into account that evolve month by month and incorporate new features. Below are the most important aspects to consider before making a final decision on a particular model:

There are many factors to consider if you want to make a good addition, especially if one takes into account that evolve month by month and incorporate new features. Below are the most important aspects to consider before making a final decision on a particular model:

There are many factors to consider if you want to make a good addition, especially if one takes into account that evolve month by month and incorporate new features. Below are the most important aspects to consider before making a final decision on a particular model:

Anchoring: GPS must be properly anchored to the or car glass, so that you can not hold up and impede driving. There are factory anchors that do not offer much assurance, so just choosing to buy an additional one with the resulting extra expense. Other anchors are very strong, but are extremely difficult to mount and dismount. The most interesting thing would be to see at the store the anchor and found to be as solid as a single.
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Connectivity: it is essential that the browser has a mini USB port to connect both the cable going to the battery charger car to communicate with the computer at home. The batteries usually last between two and five hours in media models, so occasionally the browser will have to plug the cigarette lighter charger. Moreover, computer connectivity is essential to update the online or from optical discs.

Additionally it is interesting that the browser can have Bluetooth wireless connectivity to configure, for example, to operate the mobile phone hands free. Another port that can be included is a device connecting with RDS TMC, which provides traffic information in real time through an FM radio system.
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SD card slot: the map information and its update, you can enter in the browser using either a cable or SD memory cards. It is recommended that the device has read the card slot makes it much easier for web updates.
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Night mode: when night visibility is reduced, so that all browsers have the option to “night mode”, with which it illuminates the display and contrasting the colors of the map to become more visible. It is important to change the way the browser can do that automatically.
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The and update: browsers come factory loaded with base that contain information on the delineation of roads and streets of towns, but often lack details of attractions for the driver, as the pump. If these are not updated, this information is not obtained nor the browser will indicate the possible changes have been made on the route, either new roads, byways and streets.

While there are forums and communities that offer free updates, the most common way to obtain them is in the manufacturer’s website and paying. Therefore, more accurate and detailed the that bring the browser works better.

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HOW GPS

Posted by map on January 22nd, 2010

HOW GPS
Author: GPS_BLASTER
Modified on 11/05/2009

The GPS or , , is a sophisticated guidance and navigation system whose operation is based on the receipt and processing of information released by a constellation of 24 known as , orbiting at different altitudes to 20,000 km. above the surface. Each satellite provides two flights daily to the planet, one every twelve hours. The trajectories and orbital velocity is calculated to form a sort of net around the (all times must have five in sight in any area), so a at any time of day or night , anywhere, regardless of weather conditions, may facilitate the position to capture and process the signals from at least three . In the 80s the U.S. Navy implemented a navigation system based on emissions of a small group of . This system called SATNAV was the antecedent of the current GPS. The GPS was developed by the U.S. at the end of the Cold War for military purposes. Having passed this stage, extended its use to civilian applications beginning to be used in maritime and aviation. In its early coverage was not complete because there is no place several in orbit, plus the high price put them out of reach of most potential users. Currently the network is fully operational, including spare and is commercially available GPS receivers at an affordable price. Evolution is constant and every day are small and lightweight ms while offering superior performance and greater operational autonomy of operation when fed with batteries. How GPS works? Each GPS satellite constellation continuously emit two codes of different data in digital format. These data are transmitted via radio signals. One of the codes is reserved for military use only and can not be captured by civilian GPS receivers. The other code, (civilian) transmits two sets of data and ephemeris known as ALMANAC. The data provided by the almanac and ephemeris report on the operational status of operation of the satellite, its orbital location, date and time. Obviously each satellite broadcasts its own ephemeris and almanac that include a specific identification code for each satellite. The are equipped with to ensure almost complete accuracy, providing an estimated error in one second every 70,000 years. A must have in its report of the almanac and ephemeris updates (if they are not updated automatically in a short time n, when the receiver tunes to signals from at least three ), so you’ll know where to look for in the sky. The continuously transmit its orbital location and exact time. The time between sending and receiving satellite signal from the , it becomes distance by a simple arithmetic formula (time is measured in nanoseconds). By picking up signals from at least three , the by triangulation determines its position on the surface of the by the value of the longitude and latitude (two dimensions). Such coordinates can come in degrees, minutes or seconds or measurement units used in other geodetic systems. The recruitment of four WHO also facilitates the height of the receiver with respect to sea level (three dimensions). The position coordinates and other information which may facilitate the receptor, are updated every second or every dI seconds. QUALITY OF SIGNALS ISSUED The quality of the signals emitted by , called SQ is a function of their position in the sky, in relation to the status of the receiver antenna, or satellite operational status. The quality of the signals affects the accuracy of the information provided by receivers. Some models have graphic scales for indicating the quality of the received signals. TYPES OF GPS RECEIVERS There are two types of GPS receivers, the fixed and portable. The fixed are larger, operate battery-powered cars, planes or ships and have separate external antennas. Usually they interconnected with other electronic instruments such as radars, sensors, plotters, autopilots, etc.. The ms talkies are much smaller and can also feed on the energy of any vehicle (with adapter) may work by batteries. The antennas are usually installed inside the receiver (most have external antennas are available as optional purchase), although there are also removable to be installed outdoors. Some portable models can also be interconnected with other electronic instruments. FREQUENCY MILITARY AND CIVILIAN. As mentioned in previous bulletins, each satellite transmits data series in two different codes. One of the codes, the code P is reserved for military use, the other code, called SPS, is destined for civilian use. Each code has a different transmission frequency. CODE Q: The exact code, known by the acronym protected PPS and also called P-code is reserved strictly for military use and as its name suggests offers the highest accuracy and precision. Is emitted in the frequency of 1227.6 MHz. SPS CODE: The code of ordinary acquisition, also called SPS C / A code is intended for civilian use. All GPS receivers “civilians” are tuned to this code. Is emitted in the frequency of 1575.42 MHz. Selective Availability The GPS system’s central station, located in the United States, degrades the accuracy of civil signals (through a small difference in the time of transmission / reception) so that gives a small error, error estimate between 25 and 100 meters . This signal degradation is known as selective availability (SA). This difference in the position coordinates all important for the use of GPS for civilian running applications, is due to security reasons, do not forget that some missile guidance systems using GPS guidance. It is called (DGPS) the modified system, developed by civil receiver manufacturers, is trying to achieve or approach the precision offered by the military code. To achieve this increased precision is necessary to attach the through a special interface connection, another type of receptor. This additional receiver (must be compatible) captures signals from a network of radio beacons located in coastal stations. A device that has the DGPS function, interconnected to a suitable recipient can “outwit” selective availability imposed by the U.S. Defense Department, to have another set of complementary data, thus providing a precise coordinates position of between five and ten meters. Each brand of GPS for facilitates compatibility between DGPS receivers and receivers feature that capture the signals from the beacons. The use of the DGPS system is applicable only in marine navigation and is particularly useful in docking maneuvers with low visibility. LIMITATIONS OF GPS. The GPS is without doubt the most simple and accurate navigation system currently available, however it should not be the only vehicle navigation as well be damaged, the U.S. can and it has done on occasion disrupt, modify or degrade the signals when it deems appropriate. The signals emitted by behave in a way as light as they can penetrate the glass and plastic, but do not pass through mountains, tunnels, buildings, metal surfaces or similar structures. The antenna receivers should be oriented so that it “visual access” to the . In navigation mode, a indicates the distance remaining to reach destination in a straight line. Keep in mind that the land is virtually impossible, even in the desert, following a straight path for long periods because the terrain accidents force frequently change the direction. FUNCTIONS OF A . The main function of a GPS is to report on the position occupied by through the longitude and latitude, so that position can be located easily on a map or plan. But there are other functions for easy navigation: NAME AND DESCRIPTION OF SERVICE POSITION: GPS position display. Facilitates the almost exact location receptor. This has to be the GPS signals captured by at least three . HEIGHT: 4 WHO to capture the GPS indicates the height above the sea. (sensitive to Selective Availability) TIME: GPS once initialized, but not receive satellite signals indicating the time and date, if it receives signals indicating the exact time. TRANSIT POINT OR POINT OF REFERENCE: The waypoint’s position is one place on the ’s surface expressed by its coordinates. A waypoint can be a starting point, destination or an intermediate crossing point on a route.

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