JP3926732B2 - Surveying system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a surveying method using GPS, by utilizing the observation data obtained from public fixed reference station, as well as correcting the error contained in GPS positioning means, supplies a virtual reference point, precision The present invention relates to a surveying system in which surveying data can be displayed by public coordinate values that match public administrative surveying data in a surveying method that performs high surveying.
[0002]
[Prior art]
Conventionally, a surveying method by real-time positioning using GPS (Global Positioning System) is known. This surveying method is well known, and a plurality of workers carry a GPS antenna, a GPS receiver, a recording device such as a portable personal computer, a transceiver such as a mobile phone, and other equipment. The surveying mobile station is configured, the target surveying point is positioned by the GPS means using the GPS satellite, and the surveying data is recorded in the recording device.
[0003]
However, when such GPS positioning is performed, the signals from the GPS satellites are affected by the natural conditions (ionosphere and troposphere) in the sky environment before reaching the surveying mobile station on the ground, and problems that the satellites themselves have ( "Time delay and orbit error" cause "delay" and "disturbance", and errors occur in the positioning data on the ground. Generally, it is said that the error of data reaches several meters or more.
[0004]
Therefore, a correction system for correcting such an error is provided. This correction system is composed of public fixed reference stations including fixed positioning stations provided at a large number of scattered fixed reference points (a number of fixed positioning stations are collectively referred to as fixed reference stations) and virtual reference data distribution stations. Has been.
[0005]
The fixed base station uses existing facilities installed by the Geographical Survey Institute to observe earthquakes and crustal deformations. The Geospatial Information Authority of Japan has released data to the private sector since 2002, positioning the fixed reference point using GPS means and transmitting it as observation data in real time.
[0006]
The virtual reference data distribution station creates corrected observation data by correcting the error included in the GPS positioning data as described above based on the observation data by receiving the observation data of the fixed reference station, Send to surveying mobile station.
[0007]
However, the conventional GPS surveying method creates surveying data as logical coordinate values, so it causes confusion with public surveying data, and surveying data cannot be used for administrative purposes. Have various problems.
[0008]
[Problems to be solved by the invention]
In the present invention, when the corrected observation data is created from the virtual reference data distribution station, the position information of the virtual reference point p corresponding to the target surveying point o obtained based on the corrected observation data is created and transmitted to the surveying mobile station It was found that the problems of the prior art can be solved by doing so.
[0009]
As shown in FIG. 1, one or a plurality of workers 1 includes a GPS antenna 2, a GPS receiver (reference numeral 3 described later), a recording device 4 such as a portable personal computer, and a transceiver such as a mobile phone (described later). Reference numeral 5), by carrying other equipment or the like, the surveying mobile station 6 is configured, the target surveying point o is measured by the GPS means using the GPS satellite 7, and the surveying data is recorded in the recording device 4. At this time, a public fixed reference station 8 (a large number of fixed positioning stations 8a, 8b) including fixed positioning stations 8a, 8b, 8c... Provided at a large number of fixed reference points a, b, c. , 8c... Are collectively referred to as a fixed reference station 8) and a virtual reference data distribution station 9. Accordingly, the virtual reference data distribution station 9 receives the observation data of the fixed reference station 8 and corrects the error included in the GPS positioning data as described above based on the observation data, thereby correcting the corrected observation data. Is transmitted to the surveying mobile station 6.
[0010]
Therefore, the surveying mobile station 6 measures the target surveying point o by the GPS means and informs the virtual reference data distribution station 9 of the position information. In response to this, the virtual reference data distribution station 9 provides the position information of the virtual reference point p corresponding to the target surveying point o to the surveying mobile station 6. As shown in FIG. 1, the virtual reference point p is within a triangular area formed with fixed reference points a, b, and c as close as possible to the target survey point o among a large number of scattered fixed reference points. sought, the correction observation data to correspond to the survey point o obtained based Runode given surveying mobile station 6 as the error higher position information of the corrected precision as described above. Therefore, the surveying mobile station 6 measures the distance d from the virtual reference point p to the target surveying point o, thereby achieving the target surveying point o with high accuracy that is not affected by the errors caused by GPS as described above. Positioning data can be acquired. As a result, the survey data created by the survey mobile station 6 becomes highly accurate with its error reduced to centimeter units. Incidentally, the virtual reference point p is ideally ideally coincident with the target survey point o, but it only needs to be close to the target survey point o.
[0011]
By the way, the virtual reference point p given from the virtual reference data distribution station 9 to the surveying mobile station 6 corresponds to the target surveying point o notified from the surveying mobile station 6 as described above, and the virtual reference data distribution station 9. Is generated based on the corrected observation data, and is represented by logical coordinate values based on actual measurement values by the GPS means. Therefore, the positioning data of the target surveying point o obtained by the surveying mobile station 6 based on the virtual reference point p is also expressed by logical coordinate values.
[0012]
However, public land survey data held by governments, local governments and other public institutions for land and houses, including roads and bridges, has been created over many years. The logical coordinate values do not necessarily match. That is, the public survey data public, in (herein has an error between the logical coordinates and by not least measured, means the coordinate value of the measured by GPS and "logical coordinates", whereas The coordinate value specified by the public survey data is called “public coordinate value”).
[0013]
For this reason, even if survey data as logical coordinate values is created by a new survey, there is a problem that it causes confusion with public survey data, and the survey data cannot be used for administrative purposes. There's a problem.
[0014]
[Means for Solving the Problems]
The object of the present invention is to display the coordinates of the target survey point o recorded by the survey mobile station 6 with the public coordinate values matching the public survey data in the survey method using GPS as described above. A surveying support system that enables this is provided.
[0015]
Such a survey support system is achieved by converting the logical coordinate values described above into public coordinate values and matching them. In this regard, the surveying method using virtual reference point information, which is a feature of the present invention, is performed based on the observation data of the fixed reference station 8, so that it is advantageous to use information obtained from the fixed reference station 8. That is, with respect to the fixed reference station, two coordinate data are used for each fixed reference point coordinate: a logical coordinate value obtained from observation data and a public coordinate value obtained from public public survey data. Therefore, it is possible to construct a conversion program that converts logical coordinate values to public coordinate values and matches them based on this.
[0016]
In other words, as described above, the fixed reference point of the existing fixed reference station set up by the Geospatial Information Authority of Japan exists on the public coordinate values and is used as a reference. Since there is an error between the position information (logical coordinate value) of the fixed reference point measured by GPS in real time and the public coordinate value, the logical coordinate value of the virtual reference point can be converted to the public coordinate by using this. Can be converted to a value. And since the virtual reference point p is obtained within a triangular area formed with fixed reference points a, b, and c as close as possible to the target survey point o among a large number of scattered fixed reference points, As a result, it is possible to convert the fixed reference points a, b, and c into public coordinate values corresponding to the public coordinates.
[0017]
Therefore, the present invention is configured as a means for obtaining position information of a large number of fixed reference points having public coordinate values obtained from public survey data from observation data measured by GPS means. A public fixed reference station that transmits in real time as logical coordinate values, and a virtual reference data distribution station that provides corrected observation data by correcting errors included in positioning by GPS means based on the observation data due to the sky environment, etc. And a surveying mobile station that measures the target surveying point by the GPS means, the target surveying points (o) measured by the GPS means of the surveying mobile station are scattered with a number of scattered fixed reference points. A virtual reference point (p) corresponding to the target survey point (o) is determined in an area surrounded by fixed reference points as close as possible to the target survey point (o). Serial virtual reference point with respect to (p), as well as create a logical coordinate value of the virtual reference point (p) on the basis of the corrected observation data relating to the area, logical coordinates of the fixed reference point and logical coordinate values and public coordinates Based on the above, the public coordinate value of the virtual reference point (P) as the public coordinate is obtained, and the public coordinate value of the target survey point (o) is obtained as the survey data based on the public coordinate value of the virtual reference point (P). It is the point which comprises the surveying support system to record.
[0018]
In the present invention, the surveying support system includes a program for converting logical coordinate values into public coordinate values.
[0019]
The survey support system may be provided in the virtual reference data distribution station, may be provided in a communication means between the virtual reference data distribution station and the survey mobile station, or may be provided in the survey mobile station.
[0020]
When the survey support system is provided in the virtual reference data distribution station, when the virtual reference point information is created based on the corrected observation data, the logical coordinate values indicated by the observation data regarding the fixed reference points a, b, c. Converted to public coordinate values corresponding to public coordinates. Such conversion may be performed before or after the creation of the virtual reference point p information. As a result, virtual reference point information represented by public coordinate values is transmitted from the virtual reference data distribution station to the surveying mobile station.
[0021]
When the survey support system is installed in the communication means between the virtual reference data distribution station and the survey mobile station, after the virtual reference point information represented by the logical coordinate value is transmitted from the virtual reference data distribution station, the public coordinates It is converted into a value and received by the surveying mobile station as virtual reference point information represented by public coordinate values.
[0022]
When the surveying support system is provided in the surveying mobile station, the virtual reference point information represented by the logical coordinate values is transmitted from the virtual reference data distribution station and received at the surveying mobile station, and then converted into public coordinate values. . In the surveying mobile station, the coordinates (public coordinate value) of the target survey point o may be obtained based on the virtual reference point P converted to the public coordinate value, or the virtual reference point p that remains as the logical coordinate value is used. After obtaining the coordinates (logical coordinate values) of the target survey point o based on the coordinates, the coordinates of the target survey point o may be converted from the logical coordinate values to the public coordinate values. Thereby, the target survey point o represented by the public coordinate value is recorded as survey data.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.
[0024]
In the surveying system of the present invention, the configuration other than the survey support system is as described above with reference to FIG.
[0025]
The survey support system of the present invention includes a program for converting logical coordinate values actually measured by GPS into public coordinate values specified by public survey data. Data necessary for executing the conversion program is obtained from the observation data regarding each of the fixed reference points a, b, c... Of the fixed positioning stations 8 a, 8 b, 8 c. Two coordinate data of a logical coordinate value obtained and a public coordinate value obtained from publicly available public survey data are used.
[0026]
As described above, when the surveying mobile station 6 notifies the virtual reference data distribution station 9 of the position information of the target survey point o measured by the GPS means, the virtual reference data distribution stations 9 are scattered as shown in FIG. Position information of a virtual reference point p corresponding to the target survey point o in a triangular area formed with fixed reference points a, b, and c as close as possible to the target survey point o among a number of fixed reference points. Provided to surveying mobile station 6. As described above, the logical coordinate values (xp, yp, zp) of the virtual reference point p correspond to the target survey point o obtained based on the corrected observation data, but coincide with the public coordinate values. Since it is not, it is converted to public coordinate values as follows.
[0027]
All fixed reference points including fixed reference points a, b, and c constituting the fixed reference station 8 are obtained in real time from public coordinate values obtained from public administrative survey data and observation data, respectively. Two coordinate data with the logical coordinate value are included, and for each fixed reference point, such two coordinate values are represented as a set or a pair. In other words, as described above, for example, in the case of an existing fixed reference station set up by the Geospatial Information Authority of Japan, the fixed reference points are scattered on the public coordinates, while the public coordinate values are disclosed, By receiving earthquakes, crustal movements, etc., each logical coordinate value measured by GPS is transmitted in real time.
[0028]
Therefore, as shown in FIG. 2, the coordinate values [a point (xa, ya, za), b point] represented by logical coordinate values are also applied to the fixed reference points a, b, c for obtaining the virtual reference point p. (Xb, yb, zb), c point (xc, yc, zc)] and coordinate values represented by public coordinate values [A point (XA, YA, ZA), B point (XB, YB, ZB), C points (XC, YC, ZC)] are provided as a pair or a pair.
[0029]
Therefore, the fixed reference point a represented by logical coordinates, b, virtual reference point p represented by c and logical coordinates (xp, yp, zp) sa distance between each, sb, when the sc The virtual reference point is a virtual reference point P (XP, YP, ZP ) represented by a public coordinate value from a virtual reference point p (xp, yp, zp) represented by a logical coordinate value as follows. Can be requested. According to the present invention, each fixed reference point has two coordinate data of a logical coordinate value and a public coordinate value. Therefore, the present invention is not limited to the calculation method exemplified below, and various conversions can be freely made based on the two coordinate data. You can build a program.
[0030]
XP of the virtual reference point P represented by the public coordinate value is obtained by the following formula 1.
[Expression 1]
[0031]
YP of the virtual reference point P represented by the public coordinate value is obtained by the following formula 2.
[Expression 2]
[0032]
ZP of the virtual reference point P represented by the public coordinate value is obtained by the following mathematical formula 3.
[Equation 3]
[0033]
Therefore, the virtual reference point is converted from the virtual reference point p (xp, yp, zp) represented by the logical coordinate value to the virtual reference point P (XP, YP, ZP ) represented by the public coordinate value . Based on this, the surveying mobile station 6 obtains the public coordinate value of the target survey point o by measuring the distance d from the converted virtual reference point P to the target survey point o, and records it as survey data. .
[0034]
FIG. 3 shows an embodiment in which the survey support system 10 is provided in the virtual reference data distribution station 9. In this case, when the virtual reference data distribution station 9 creates virtual reference point information based on the corrected observation data, the logical coordinate values indicated by the observation data regarding the fixed reference points a, b, c. the Rukoto allowed converted into public coordinate values are capable of converting the logical coordinates of the virtual reference point public coordinates. As shown in FIG. 2, the conversion from the logical coordinate value to the public coordinate value is represented by the public coordinate value by creating a virtual reference point p represented by the logical coordinate value and then converting the virtual reference point p. The virtual reference point P may be created, but is not necessarily limited to such a method. Thereby, virtual reference point information represented by public coordinate values is transmitted from the virtual reference data distribution station 9 to the surveying mobile station 6 via the transceiver 11. Therefore, since the surveying mobile station 6 receives the virtual reference point P represented by the public coordinate value by the transceiver 5, the target survey point o as the public coordinate value is obtained and recorded in the recording device 4 as the survey data. The
[0035]
FIG. 4 shows an embodiment in which the survey support system 10 is interposed in the communication means 12 between the virtual reference data distribution station 9 and the survey mobile station 6. In this case, after the information of the virtual reference point p represented by the logical coordinate value is transmitted from the virtual reference data distribution station 9, it is converted to the public coordinate value on the communication means, and the virtual reference point represented by the public coordinate value The information of P is received by the surveying mobile station 6. For example, when the surveying support system 10 is provided by a third party organization, the virtual reference point p represented by the logical coordinate value transmitted from the virtual reference data distribution station 9 is passed through the surveying support system 10 in the communication process, and the public After being converted into coordinate values , it is received by the surveying mobile station 6. When the communication means 12 is configured by the Internet, the conversion by the surveying support system 10 is performed on the Internet. Also in this embodiment, since the surveying mobile station 6 receives the virtual reference point P represented by the public coordinate value by the transceiver 5, it obtains the target survey point o as the public coordinate value, and records it as the survey data 4 To record.
[0036]
FIG. 5 shows a first example of the embodiment in which the surveying support system 10 is provided in the surveying mobile station 6, and the surveying support system 10 is interposed between the transceiver 5 and the recording device 4. In this case, information on the virtual reference point p represented by the logical coordinate value is transmitted from the virtual reference data distribution station 9. The surveying mobile station 6 receives this by the transmitter / receiver 5, converts it into a public coordinate value by the survey support system 10, and inputs the virtual reference point P represented by the public coordinate value to the recording device 4. To obtain the target survey point o and record it as survey data.
[0037]
FIG. 6 shows a second example of the embodiment in which the surveying support system 10 is provided in the surveying mobile station 6. The surveying support system 10 is provided in the recording device 4. In this case, the surveying support system 10 may be connected to the recording device 4 as illustrated, but it is preferably incorporated in the recording device 4. Also in this case, information on the virtual reference point p represented by the logical coordinate value is transmitted from the virtual reference data distribution station 9. The surveying mobile station 6 receives this by the transmitter / receiver 5 and then inputs the virtual reference point p represented by the logical coordinate value to the recording device 4. The recording device 4 converts the virtual reference point p into a public coordinate value by the survey support system 10, obtains the target survey point o from the virtual reference point P represented by the public coordinate value, and records it as survey data. Alternatively, the coordinates of the target survey point o represented by the logical coordinate value are immediately obtained from the virtual reference point p represented by the logical coordinate value, and then the coordinates of the target survey point o are converted from the logical coordinate value to the public coordinate value. It may be recorded as survey data.
[0038]
【The invention's effect】
Although conventional GPS surveying methods create survey data as logical coordinate values, they have problems such as confusion with public survey data and the inability to use survey data for administrative purposes. On the other hand, according to the present invention, there is an effect that the surveying support system can display the survey data with the public coordinate values matching the public survey data.
[0039]
In particular, according to the present invention, with respect to the target survey point o positioned by the GPS means of the surveying mobile station 6, the fixed reference points a and b that are as close as possible to the target survey point o among the many fixed reference points that are scattered. Since the virtual reference point p corresponding to the target surveying point o is obtained in the area surrounded by c, and provided to the surveying mobile station 6, the target surveying of the surveying mobile station 6 based on the virtual reference point p is performed. There is an advantage that the coordinate value of the point o can be obtained. In particular , in order to realize a survey support system that converts a logical coordinate value into a public coordinate value, a fixed reference station 8 that transmits observation data is individually fixed. By using the two coordinate data of the logical coordinate value and the public coordinate value provided for the coordinate values of the reference points a, b, c, the logical coordinate value of the virtual reference point is converted into the public coordinate value , and the virtual reference value Based on the public coordinate value of the point Since it is intended to obtain the public coordinate values of the target survey spot o Te, constructed with it is possible to relatively easily implemented without the need for new large facilities, ensures highly accurate accurate conversion program There is an effect that can be.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an outline of a surveying method using GPS in the present invention.
FIG. 2 is an explanatory diagram showing a relationship between logical coordinate values and public coordinate values related to a fixed reference point and a virtual reference point of a fixed reference station in the survey support system of the present invention.
FIG. 3 is an explanatory diagram showing an example in which a survey support system is provided in a virtual reference data distribution station with respect to an embodiment of the present invention.
FIG. 4 is an explanatory diagram showing an example in which a survey support system is provided in a communication means between a virtual reference data distribution station and a survey mobile station according to an embodiment of the present invention.
FIG. 5 shows a first example of an example in which a surveying support system is provided in a surveying mobile station with respect to an embodiment of the present invention, and shows an example in which a surveying support system is interposed between a transceiver and a recording device. It is explanatory drawing.
FIG. 6 shows a second example of an example in which a surveying support system is provided in a surveying mobile station with respect to the embodiment of the present invention, and is an explanatory diagram showing an example in which the surveying support system is provided in a recording device.
[Explanation of symbols]
3 GPS receiver 4 Recording device 5 Transmitter / receiver 6 Survey mobile station 8 Fixed reference station 9 Virtual reference data distribution station 10 Survey support system a, b, c Fixed reference point o Target survey point p Virtual reference point

Claims (4)

Public fixed reference stations that transmit the positional information of a large number of fixed reference points scattered from public survey values obtained from public survey data as logical coordinate values obtained from observation data measured by GPS means in real time When,
A virtual reference data distribution station that provides corrected observation data by correcting an error included in positioning by GPS means due to the sky environment or the like based on the observation data;
In a surveying system composed of a surveying mobile station for positioning a target surveying point by GPS means,
For the target survey point (o) measured by the GPS means of the surveying mobile station, the target is within the area surrounded by the fixed reference point as close as possible to the target survey point (o) among the many fixed reference points scattered. Find the virtual reference point (p) corresponding to the survey point (o)
Wherein with respect to the imaginary reference point (p), as well as create a logical coordinate value of the virtual reference point (p) on the basis of the corrected observation data relating to the area, logical coordinate value and the logical coordinates of the fixed reference points and public coordinates Based on the above, obtain the public coordinate value of the virtual reference point (P) as the public coordinate,
A surveying system comprising a surveying support system for obtaining a public coordinate value of a target survey point (o) based on a public coordinate value of the virtual reference point (P) and recording it as survey data. The surveying system according to claim 1, wherein the surveying support system includes a conversion program for converting logical coordinate values into public coordinate values. The survey support system is provided in the virtual reference data distribution station, and the virtual reference point (P) represented by the public coordinate value is transmitted from the virtual reference data distribution station to the survey mobile station. The surveying system according to 1 or 2. The survey support system is installed in the communication means between the virtual reference data distribution station and the survey mobile station, and after sending the virtual reference point represented by the logical coordinate value from the virtual reference data distribution station to the public coordinate value 3. The surveying system according to claim 1, wherein the surveying mobile station receives the virtual reference point (P) represented by public coordinate values after conversion.