Content of this contribution is an issue of inertial sensors errors, specification of inertial measurement units and generating of test signals for Inertial Navigation System (INS). Given the different levels of navigation tasks, part of this contribution is comparison of the actual types of Inertial Measurement Units. Considering this comparison, there is proposed the way of solving inertial sensors errors and their modelling for low – cost inertial navigation applications. The last part is focused on mathematical testing and simulations of the inertial navigation. Given issue is a partial result, which is part of dissertation thesis Integration architectures of navigation systems
Abstract:- The subject of this paper is a study of the influence of the inertial sensors errors on t...
The processes of error development in an inertial navigation system are analysed. With this aim, the...
Today most civil and military navigation systems are based on or include GNSS (Global Navigation Sa...
The paper describes the results of error analysis of the new inertial measurement unit ADIS16364 pro...
Inertial navigation system (INS) is a self-contained navigation technique. Its main purpose is to de...
Inertial navigation system determines position, velocity and attitude by using navigation equations ...
The integration of Global Positioning System (GPS) with an inertial measurement unit (IMU) has been ...
Inertial Measurement Units, the main component of a navigation system, are used in several systems t...
The operation of technical processes requires increasingly advanced supervision and fault diagnostic...
This paper presents error modelling and error analysis of microelectromechnical systems (MEMS) inert...
Growth of complexity and functional importance of integrated navigation systems (INS) leads to high ...
In this master science thesis the method to determine the error budget of the stochastic errors on i...
The article is devoted to mathematical models of errors of inertial navigation systems (INS). The ma...
Inertial measurement units (IMU) have long been used in the personal and vehicular navi gation field...
The processes of error development in an inertial navigation system are analysed. With this aim, the...
Abstract:- The subject of this paper is a study of the influence of the inertial sensors errors on t...
The processes of error development in an inertial navigation system are analysed. With this aim, the...
Today most civil and military navigation systems are based on or include GNSS (Global Navigation Sa...
The paper describes the results of error analysis of the new inertial measurement unit ADIS16364 pro...
Inertial navigation system (INS) is a self-contained navigation technique. Its main purpose is to de...
Inertial navigation system determines position, velocity and attitude by using navigation equations ...
The integration of Global Positioning System (GPS) with an inertial measurement unit (IMU) has been ...
Inertial Measurement Units, the main component of a navigation system, are used in several systems t...
The operation of technical processes requires increasingly advanced supervision and fault diagnostic...
This paper presents error modelling and error analysis of microelectromechnical systems (MEMS) inert...
Growth of complexity and functional importance of integrated navigation systems (INS) leads to high ...
In this master science thesis the method to determine the error budget of the stochastic errors on i...
The article is devoted to mathematical models of errors of inertial navigation systems (INS). The ma...
Inertial measurement units (IMU) have long been used in the personal and vehicular navi gation field...
The processes of error development in an inertial navigation system are analysed. With this aim, the...
Abstract:- The subject of this paper is a study of the influence of the inertial sensors errors on t...
The processes of error development in an inertial navigation system are analysed. With this aim, the...
Today most civil and military navigation systems are based on or include GNSS (Global Navigation Sa...