Abstract
Dilution of precision (DOP) is a value that can describe the effect on the relationship between measurement error and position determination error. The DOP of a positioning system using time of arrival (TOA) measurement such as GPS has been well researched. Some researchers have also investigated the DOP of the angle of arrival (AOA) system. However, the DOP of the AOA and TOA combined system has been rarely studied. As more AOA based systems appear in the market, the AOA/TOA combined system is likely to be used widely in the future. This article investigates the DOP of a positioning system combining AOA and TOA. The concept of DOP is briefly introduced, and the DOP of AOA and of TOA is discussed separately. A unified formula to calculate DOP is derived for a positioning system using AOA and/or TOA measurements. The simulation shows that the DOP value is associated with the size of the deployment of the base stations and the ratio between the standard deviations of TOA and AOA measurements. If the ratio is fixed, when the size approaches infinity, the DOP approaches that of a positioning system using only TOA measurement. On the contrary, when the size approaches infinitely small, the DOP approaches that of a positioning system using only AOA measurement. An Ultra-Wide band positioning system was used to conduct experiments. The results verify that the unified formula can be used to guide the deployment of base stations of the AOA and/or TOA based positioning system.
Highlights
There are many positioning technologies such as proximity, cell ID, fingerprinting and inertial measurement unit based techniques [1]–[3], but the most popular positioning technologies are angle based or range based [4]–[11]
Dilution of precision (DOP) VALUES WITH DIFFERENT CONFIGURATIONS OF BASE STATIONS we investigate the DOP values with different configurations of base stations based on Matlab simulation when an angle of arrival (AOA)/time of arrival (TOA) combined positioning system is used
FURTHER DISCUSSION OF THE DOP FOR AOA/TOA In section V, it was demonstrated that changing the value of R will change the DOP
Summary
There are many positioning technologies such as proximity, cell ID, fingerprinting and inertial measurement unit based techniques [1]–[3], but the most popular positioning technologies are angle based or range based [4]–[11]. Researchers have investigated accurate ways to estimate angle measurements [13], [14], but a modern AOA based positioning system is still rare [15]–[17]. DOP has been well investigated for range based positioning systems, especially global navigation satellite systems [4], [21]–[23], and DOP for angle based systems has been discussed in recent publications [24], [25]. The main contribution of this research is deriving a unified formula to calculate DOP for a positioning system using AOA and/or TOA measurements the first time.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
