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Email: Jim Smith |
Survey Review 42, No. 315 January 2010 1. The perspective from Asia concerning the impact of Compass/Beidou-2
on future GNSS The next decade promises drastic improvements to global navigation satellite
systems. The USA is modernizing GPS, Russia is refreshing GLONASS, Europe
is moving ahead with its own Galileo system, and The People’s Republic
of China is expanding its Beidou-1 system from a regional navigation system
to a full constellation global navigation satellite system known as Compass/BeiDou-2,
which consists of thirty five satellites including geostationary satellites,
MEO satellites, and geosynchronous satellites in the coming year. Extra
satellites will improve performance for all applications, and especially
where satellite signals can be obscured, such as in urban canyons, under
tree canopies, or in open-cut mines. The benefits of the expected extra
satellites and their signals are increased availability, accuracy, continuity,
and reliability.
Using a change of variable suggested by P. D. Thomas (1952), the arc length of a segment of a geodesic curve on an ellipsoid becomes an integral having the same form as arc length on an ellipse, a simpler problem. This leads to a succinct theoretical solution to the Direct and Indirect Problems of geodesics. With modern mathematical software, it is also a practical solution 3. Land subsidence using absolute and relative gravimetry: a
case study in central Taiwan We experiment with absolute and relative gravimetry to determine land subsidence. A gravity network in the Yunlin County of central Taiwan is established to determine gravity variations that are largely due to land subsidence. Every 6 months, gravity values at two absolute gravity stations were measured by a FG5 gravimeter and those at 7 relative stations by a Graviton-EG and a Scintrex CG-5 relative gravimeter. A weighted constraint network adjustment was carried out by holding fixed gravity values at the absolute stations. Correction models for temporal gravity changes are developed and applied to raw gravity measurements. The adjusted gravity values oscillate, but in general increase with time, showing signature of land subsidence. An empirical gravity-to-height admittance factor is determined using gravity change (from FG5) and height change (from levelling) at the two absolute gravity stations. At most gravity stations, there is good agreement between subsidence rates from gravimetry and levelling. Some large discrepancies (> 1 cm/year) also exist and are caused by uncertainties in relative gravity accuracy, hydrological effects and the admittance factor. This study suggests that gravimetry has the potential to determine land subsidence to cm accuracy and is more efficient and economic than tools such as levelling and GPS.
Space resection in photogrammetry involves determining the spatial position and orientation of a photo based on image measurements of ground control points that appear in the photo. Since space resection is a nonlinear problem, existing methods involve linearisation of the collinearity condition and the use of an iterative process to determine the final solution using the least-squares method. The process also requires initial approximate values of the unknown parameters, some of which must be estimated by another least-squares solution. This paper presents an optimisation model for space resection with or without redundancy that requires no linearisation, iterations, or initial approximate values. The model, which is nonlinear and noncovex, is solved using advanced Excel-based optimisation software that has been recently developed. Application of the model is illustrated using two numerical examples. The proposed model is simple and converges to the global optimal solution very quickly. The presented concept has many potential applications in solving nonlinear land surveying problems without the need for linearisation, and as such should be of interest to surveying and geomatics engineers. 5. Semi-automatic building extraction in dense urban settlement
areas from high-resolution satellite images Recent availability of high-resolution satellite images provides a new data source for geospatial data acquisition. This high-resolution data source has made it possible to extract man-made features such as roads and buildings, which are required for varieties of applications including urban planning, creation of GIS databases, and environmental monitoring. In this paper, we have developed a new method to extract buildings in urban informal settlement areas using high-spatial resolution panchromatic imagery. The proposed method uses radial casting algorithm to initialize snakes contours, and the fine measurement of building outlines is automatically carried out using snakes models. The building extraction results are satisfactory with an extraction rate of 94 percent as demonstrated by examples over a variety of selected test areas. The potential and limitations of applying this method to extract buildings is also discussed.
This paper studies the least-squares estimation of the adjustment model constrained by some non-negative parameters from an entirely novel point view. The non-negative parameters-constrained least-square problems are first translated to convex quadratic programming problems and then searched for optimal solutions. The paper gives the necessary and sufficient conditions on the solvability of the optimization problem, which consequently gives the general form of the least-squares estimation of the adjustment model constrained by non-negative parameters. A simple and straightforward algorithm is designed to resolve the problem. Comparative calculations on a simulation example indicates that the proposed methods are advantageous for conventional models, ease of implementation, and can be readily applied to adjustment computations of practical measurements.
The pseudolite-augmented GPS technique can overcome the limitations of GPS-only surveys in unfavourable environments, like urban areas, deep open-pit mines and valleys. However, several problems need to be solved before pseudolites can be employed in precise surveys. This paper discusses the potential use of pseudolites for deformation monitoring in unfavourable survey environments. An analysis was conducted to illustrate how pseudolite measurements can improve the strength of the positioning geometry at a hydro-power dam. The methodology for the integration of GPS and pseudolite measurements has been developed, in particular the method/strategy to calibrate the pseudolite multipath effect, one of the severe sources of errors in pseudolite measurements. A set of real GPS pseudolite observations based on a 10×20 m network was processed to demonstrate the usefulness of the developed methodology.
The Topography and Photogrammetry section of the Department of Civil Engineering, Pisa University, Italy, in cooperation with the Geonetlab Research Centre of Trieste University, is developing several methods for the evaluation of road cross-slope. The measurements are performed by means of instrumentation integrated on the Mobile Mapping Systems vehicle GIGI One (GPS Integrated with Glonass and INS One). Two different approaches are followed. The first one involves the use of a low cost monoaxial laser scanner IBEO Ladar Digital Automotive (LD-A), synchronised with an Applanix Position and Orientation System for Land Vehicles (POS LV). For the second approach, the cross-slope is computed only from inertial system data, with a simplified algorithm that describes vehicle dynamics. The paper presents an accuracy assessment of both methods. The tests are carried out on two different datasets, namely on the national road SS58 “Strada Nuova per Opicina”, joining Trieste to Opicina and the national road SS1 “Aurelia” between Rosignano and Campolecciano, near Livorno. The control measurements involve several single point checks carried out with conventional surveying instrumentation. The paper shows that the new proposed algorithm allows to compute cross-slope with an accuracy of 0.4° or better.
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