Tag Archives: Allied Biological

How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

——————————————–

The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

Check out The Mapping Network on Facebook for more examples and success stories!

The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

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How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

——————————————–

The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

Check out The Mapping Network on Facebook for more examples and success stories!

The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

——————————————–

The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

Check out The Mapping Network on Facebook for more examples and success stories!

The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

——————————————–

The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

Check out The Mapping Network on Facebook for more examples and success stories!

The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

——————————————–

The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

Check out The Mapping Network on Facebook for more examples and success stories!

The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

How does GPS Accuracy affect Lake Mapping Results?

When thinking about mapping a lake, it’s good to have a basic background of how the different methods of GPS can affect the quality of your data and ultimately the accuracy of your map.  Staff at The Mapping Network have been using GPS technology to map lakes since the 1990’s and we want to quickly cover some basics about the primary GPS collection methods available today.  It is important to understand how each type of GPS system will greatly influence the end result.  We are not going in depth on the theory and history of GPS but rather show simple examples of how accuracy on the initial data collection side is critical to creating an accurate map.

Diagram showing typical accuracy using standard hand held GPS (in blue), WAAS (yellow), Differential GPS (red). In this example one point was collected inside the red circle. Based on accuracy ratings for the standard GPS we would expect the point to be placed somewhere in the blue circle. If using WAAS it should land somewhere in the yellow circle and if using Differential GPS it should be near the red circle.

Brief Overview of GPS

Global positioning system (GPS) is a satellite navigation system developed in the early 1970s by the Department of Defense to overcome certain obstacles in navigation. Since then, the GPS navigation system has made its way to the public in the mid to late 1990s. Over the past decade, the accuracy of GPS has greatly increased in part from introducing new, more accurate satellites along with more sophisticated hardware and software for the ground units themselves. GPS computes its position based on time. This distance is computed based on the speed of light distance between the satellite and the receiver. The result is a z,y,z location on the earth. Typical hand held GPS units without extra enhancements can be anywhere from 10 to 30 meters with regards to locational horizontal accuracy.

Increased Forms of Accuracy with GPS

WAAS

Wide Area Augmentation System (WAAS) is a navigation system developed by the Federal Aviation Administration (FAA) to enhance the accuracy of GPS units onboard aircraft. WAAS uses ground based reference stations located around the Western Hemisphere to measure small variations in the GPS satellite messages. The typical horizontal accuracy of WAAS is within 3-7 meters to the user according to the FAA website.  The level of accuracy will be affected by the type of hardware and software being used to receive the signal. WAAS navigation system is only available in North America.

Differential GPS

Differential GPS helps fix errors with basic GPS mapping. This works by determining the inaccuracy from the GPS by comparing the locations of a stationary receiver location and a known location. Since the location of the DGPS is known, it’s able to send out a transmission to all DGPS equipped receivers near the area with the correct radio signal transmission. Using professional grade equipment this is typically accurate to 50 cm horizontal real-time and up to 10 cm by post processing.

RTK

Real Time Kinematic (RTK) system navigation is the most accurate option for mapping. RTK is capable of providing accuracies to within a centimeter both horizontally and vertically. RTK is mostly used for land surveying and land topography services because it is very accurate for capturing x,y,z (Lat, Long and Elevation).

How Does This Affect the Lake Map?

Creating contour maps starts with collecting data points throughout the lake.  These points then create a 3D model of the lake bottom where a number of different types of analyses can be performed.  In regard to locational accuracy, if we collect a single point on the lake, the point we are collecting will have a x, y (latitude and longitude provided by GPS).  If we are using a standard handheld unit that point is probably going to fall anywhere within a 15 meter radius.  Now let’s say we are using a WAAS enabled GPS system like what is found on the Lowrance HDS unit.  In this case we should expect the point to fall within a 3-4 meter radius of the actual location.  Look at the illustration above to better visualize what this means for accuracy.  If the water depth was 3.5 ft deep at the point collected you right away see where using a handheld unit or even a WAAS enabled unit can present all sorts of issues.  The 3.5 ft depth could be on land or still be in the water but 3 meters off.  The typical software used to process the data will then have to greatly generalize the contour map.  This type of mapping can be valuable for general recreation uses or quick management calculations but will be based off of a general estimate and would not be useful for information where accuracy is needed.

So how do we go about collecting accurate data?  According to the US Army Corps of Engineers specs the GPS location needs to be sub meter accurate.  This means using the correct Differential GPS or RTK system will achieve the locational accuracy required to generate an accurate map.

We understand there are different levels of needs for various clients and many times using a WAAS system will provide enough information to the client.  We call these recreational grade maps where general contours and depths can be seen and should be used as general reference maps.  These maps can look nice from a visual standpoint but provide little quantitative value.

Most projects require a certain level of accuracy that we call professional grade maps.  These maps can be used to generate accurate water volume, sedimentation rates, dredging or excavation planning and verification.

The Mapping Network provides the consumer with different accuracy levels based on the needs of the project.  It is very important to understand the different types of data collection because it is a critical component to a successful lake map.

As is with anything else in life, you get what you pay for!

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The Mapping Network is an industry leader in Hydrographic Surveys, Bathymetry, Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

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The Mapping Network is proud to announce their firm has been chosen by Cabela’s, the World’s Foremost Outfitter, as a Landowner Services provider for Cabela’s Trophy Properties throughout the United States.  Visit us on the Cabela’s Trophy Properties website >> click here

The Mapping Network:  www.TheMappingNetwork.com

A Nationwide Network of GPS Mapping Professionals

New Jersey Lake Mapping: Before and After Dredging

The Mapping Network and Allied Biological recently completed a lake mapping project for a country club in New Jersey.  The client initially requested the creation of a detailed lake map for understanding true depths, volume analysis and to identify areas needed for dredging.  Upon receiving the results of the lake map, the country club was able to efficiently locate areas for dredging and take control of the bidding process.

After the completion of the dredging portion, the country club immediately remapped the lake to verify the dredging company had taken out the correct amount of material and also to establish a new base map.  The new map will be used to generate a lake management plan for water conservation and future dredging.

The lake mapping process allowed the client to make intelligent decisions on their dredging project and gave them the peace of mind knowing the work has been completed properly.

Since 1982, Allied Biological has been an industry leader in providing lake management consulting and wetland restoration solutions. With an experienced, year-round staff comprised of biologists, environmental scientists and aquatic habitat specialists, our company manages and restores more than 20,000 acres of ponds, lakes, reservoirs and wetlands using a variety of management techniques.Allied Biological provides the largest range of lake and wetland services for New York, New Jersey, Pennsylvania and Delaware including:

  • Lake Mapping: bathymetric lake mapping, aquatic vegetation mapping, invasive wetland species mapping
  • Fisheries Management: fisheries studies, fish removal, fish stocking
  • Lake Weed and Algae Control: weed removal through hydro-raking, chemical applications, biomanipulation
  • Consulting Services: water quality assessment, feasibility studies, vegetation management plans, lake management plans
  • Lake Aeration: Freshlake Aeration and floating fountains
  • Wetland Vegetation Control: mechanical removal and chemical applications to control invasive species

For more information about Allied Biological or any of our aquatic restoration & management services, please contact us at 908-850-0303.

In northern New York, please contact us at 607-286-7257.

More information on Allied Biological can be found on their website:  www.alliedbiological.com

Color shaded depth map showing the pre-dredge (left) and post-dredge (right) lake depths

Color shaded depth map showing the pre-dredge (left) and post-dredge (right) lake depths

The time to act is now. Don’t waste another year trying to manage your resource without this information.

Give us a call or send an e-mail to find out more details.

contact:  Steve Bartosh

phone:  (402) 241-8177

e-mail: info@themappingnetwork.com

website: www.themappingnetwork.com

About The Mapping Network:

The Mapping Network is an industry leader in Geographic Information Systems Consulting, Data Conversion, and GPS Data Collection.  We specialize in terrain and sub-surface (bathymetry) GPS mapping.   If you are serious about maintaining  a high-quality golf course, lake or pond, be sure you have the ability to make the best decisions,  get your resource mapped by the professionals at The Mapping Network.   Give us a call or send an e-mail to find out more details.