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Since ancient civilizations in Mesopotamia, Egypt and Rome, man has used tools to measure and keep his boundaries and separate himself from his neighbors. As the utilization of such tools were all but lost within the Middle Ages, the Renaissance saw a resurgence in interest and need in tools to survey and parcel the land around them. Many tools still used today are much like those used to map and survey the initial settlements of the usa. We have been at the dawn of a whole new era, on the flip side, where technology that has not drastically changed in the past decades are being introduced to the computer age, which has served to only make man's estimations much more accurate than before.

In its earliest forms, among the main tools for conducting land surveys was a chain (sometimes known as a Gunter's chain) of a specific length. These chains would be pulled taut, and attempts were made to hold the measure level camera as a way to improve accuracy.

Leaps and bounds in accuracy in surveying were made with the introduction of such equipment as the surveyor's compass and theodolite. The surveyor's compass, or circumferentor, consisted of a brass circle and an index; on the circle was a compass. It was used to measure horizontal angles. A theodolite could measure both horizontal and vertical angles. Due to the higher accuracy, the theodolite was the preferred tool for surveyors throughout Europe through the early 1800s. Conversely, as a result of its bulk, the surveyor's compass was still utilized in heavily wooded areas, leading to its resurgence in popularity throughout the Colonial period in the nation.

Theodolites, however more sophisticated versions, were still used as late as the 1990's for simple surveys, along with other equipment to improve the accuracy. More recently, modern electronics have improved on the theodolite with the addition of an electronic distance measurement device, or EDM; these tools are known as total stations. In a short time period, total stations have gone from being mechanical/electronic devices to purely electronic systems with onboard computer and software.

Linear surveying is one of the most basic methods of surveying and involves no measurement of angles. Whilst often now overlooked in favour of hi-tech theodolites and GPS equipment, It may be used to plot single features or whole towns. However it is most suited for small scale projects as accuracy can suffer over larger areas but it does offer a cheap alternative to sophisticated but expensive measurement equipment.

How Does Linear Surveying Work? This method involves establishing a linear baseline throughout the area that is to be measured/plotted. Over short distances this could be accomplished with a tape between two rods but over longer distances the baseline is best constructed by a team of at least two surveyors. One surveyor can stand at the previous rod and ensure the next rod is put in the ground in-line with the others.

Once a perfectly straight baseline is established then another tape can be provided by the baseline to an point that needs to be measured/plotted. The key is the fact that this line is taken at exactly a 90 degree angle from the baseline. This can be ensured through the use of a standard surveyors triangle.

The two linear measurements that need to be taken will be the distance of the point along the baseline and secondly the distance from the baseline. By having these measurements from all the points required, it's then possible to plot them and produce a drawing of the site.

For larger or more complicated sites it is suggested to setup multiple baselines across the site with ideally each point being measured from more than one baseline to increase accuracy.

Global Positioning Systems have also entered the arena of land survey, and have steadily gained in knowledge and use within the non-public field. For land surveying, alternatively, they can be not absolutely as accurate as the surveyor would wish. Even though they have increased the speed of surveying, GPS systems are only horizontally accurate to 20mm and vertically accurate to about 30mm. Also, GPS systems have problems functioning properly in heavily wooded areas. In several cases, surveyors will still rely on their total stations in conjunction with other equipment for example laser scanners. Where the budget is big enough, a helicopter equipped with a GPS system can verify the findings on the ground.

While the technology utilized by land surveyors has been changing and moving forward by leaps and bound in the last 25 years, even the most advanced technology can just do so much. Land surveying remains an art, with the help of the surveyor can't be replaced by technology. The surveyor must investigate and infer just what the true boundaries associated with any property may be using both the technological and historical information they have at hand.