A Magnetic Ranging-Aided Dead-Reckoning Positioning System for Pedestrian Applications

Autor: Satyam Dwivedi, Antonio Moschitta, John-Olof Nilsson, Valter Pasku, Alessio De Angelis, Peter Händel, Paolo Carbone
Rok vydání: 2017
Předmět:
Positioning system
Computer science
range measurement
Real-time computing
02 engineering and technology
indoor environment
magnetic fields
01 natural sciences
Magnetic separation
dead-reckoning inertial navigation system
Indoor positioning system
magnetic field measurement
Dead reckoning
0202 electrical engineering
electronic engineering
information engineering
inertial navigation
Magnetic sensors
Dead reckoning INSPEC: Controlled Indexing inertial navigation
Electrical and Electronic Engineering
Instrumentation
Inertial navigation system
Remote sensing
IEEE Keywords: Coils
DR-INS
MPS mobile node
Node (networking)
020208 electrical & electronic engineering
010401 analytical chemistry
indoor positioning
Wind triangle
Voltage measurement
Ranging
pedestrians INSPEC: Non-Controlled Indexing magnetic ranging-aided dead-reckoning positioning system
resonators
partial nonline-of-sight condition
0104 chemical sciences
pedestrian application
Magnetic resonance
sensor Author Keywords Dead reckoning (DR)
IEEE Keywords: Coils
Magnetic separation
Magnetic sensors
Magnetic resonance
Voltage measurement
Dead reckoning INSPEC: Controlled Indexing inertial navigation
magnetic field measurement
magnetic sensors
pedestrians INSPEC: Non-Controlled Indexing magnetic ranging-aided dead-reckoning positioning system
pedestrian application
dead-reckoning inertial navigation system
DR-INS
partial nonline-of-sight condition
indoor environment
MPS mobile node
distance measurement
sensor Author Keywords Dead reckoning (DR)
indoor positioning
inertial navigation
magnetic fields
range measurement
resonators
distance measurement
Air navigation
Zdroj: I2MTC
ISSN: 1557-9662
0018-9456
Popis: This paper investigates the applicability of a developed Magnetic Positioning System (MPS) as a support for a dead-reckoning inertial navigation system (DR-INS) for pedestrian applications. The integrated system combines the complementary properties of the separate systems, operating over long periods of time and in cluttered indoor areas with partial nonline-of-sight conditions. The obtained results show that the proposed approach can effectively improve the coverage area of the MPS and the operation time with bounded errors of the DR-INS. In particular, a solution that provides bounded position errors of 1–2 m over significantly long periods of time up to 45 min, in realistic indoor environments, is demonstrated. Moreover, system applicability is also shown in those scenarios where arbitrary orientations of the MPS mobile node are considered and an MPS position estimate is not available due to less than three distance measurements.
Databáze: OpenAIRE
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