Localization and asset tracking are key components of the Internet of Things or the fourth industrial revolution called ldquoIndustry 4.0rdquo. Current systems using GPS signals cannot be used indoors. Alternative systems for indoor localization exist, but they cannot be battery power with tiny batteries over multiple years. To overcome these drawbacks we propose a new localization concept based on an ultra-low-power wake-up receiver. With a power consumption of less than 10muW the tags mounted on the assets are able to operate for multiple years using tiny coin type batteries. Nevertheless, out system concept can achieve an accuracy down to the sub-meter range. This goal is reached by means of beacon based field strength localization for t...
This paper follows the implementation of a proofof-concept localization system for GNSS-denied envir...
A simple and low cost strategy for implementing pervasive objects that identify and track their own ...
The purpose of our project is to develop a complementary system to the current GPS with a focus on i...
Global Positioning System (GPS) and Global Navigation Satellite System (GNSS) are currently widely u...
Modern wireless receivers tend to decrease power consumption. This section shows the benefits of a s...
Localization is a fundamental technology embedded — often unbeknownst to users — in many devices and...
In this paper, design, implementation and testing of an extremely low-power and low-cost wireless se...
Indoor localization systems allow for innovative Industry 4.0 applications such as tracking of asset...
There exists a dichotomy in the design of modem electronic systems: the simultaneous need to be low ...
GPS is widely used for localization and tracking, however traditional GPS receivers consume too much...
The recent advances in the Internet of Things (IoT) technologies have started a new era in sensor ne...
Precise time and location are at the core of many Cyber Physical Systems (CPS) applications, as can ...
Global navigation satellite systems have been used for reliable location-based services in outdoor e...
Hybrid acoustic-RF systems offer excellent ranging accuracy, yet they typically come at a power cons...
International audienceIndoor localization techniques have been extensively studied in the last decad...
This paper follows the implementation of a proofof-concept localization system for GNSS-denied envir...
A simple and low cost strategy for implementing pervasive objects that identify and track their own ...
The purpose of our project is to develop a complementary system to the current GPS with a focus on i...
Global Positioning System (GPS) and Global Navigation Satellite System (GNSS) are currently widely u...
Modern wireless receivers tend to decrease power consumption. This section shows the benefits of a s...
Localization is a fundamental technology embedded — often unbeknownst to users — in many devices and...
In this paper, design, implementation and testing of an extremely low-power and low-cost wireless se...
Indoor localization systems allow for innovative Industry 4.0 applications such as tracking of asset...
There exists a dichotomy in the design of modem electronic systems: the simultaneous need to be low ...
GPS is widely used for localization and tracking, however traditional GPS receivers consume too much...
The recent advances in the Internet of Things (IoT) technologies have started a new era in sensor ne...
Precise time and location are at the core of many Cyber Physical Systems (CPS) applications, as can ...
Global navigation satellite systems have been used for reliable location-based services in outdoor e...
Hybrid acoustic-RF systems offer excellent ranging accuracy, yet they typically come at a power cons...
International audienceIndoor localization techniques have been extensively studied in the last decad...
This paper follows the implementation of a proofof-concept localization system for GNSS-denied envir...
A simple and low cost strategy for implementing pervasive objects that identify and track their own ...
The purpose of our project is to develop a complementary system to the current GPS with a focus on i...