Abstract
As the ideas and technologies behind the Internet of Things (IoT) take root, a vast array of new possibilities and applications is emerging with the significantly increased number of devices connected to the Internet. Moreover, we are also witnessing the fast emergence of location-based services with an abundant number of localization technologies and solutions with varying capabilities and limitations. We believe that, at this moment in time, the successful integration of these two diverse technologies is mutually beneficial and even essential for both fields. IoT is one of the major fields that can benefit from localization services, and so, the integration of localization systems in the IoT ecosystem would enable numerous new IoT applications. Further, the use of standardized IoT architectures, interaction and information models will permit multiple localization systems to communicate and interoperate with each other in order to obtain better context information and resolve positioning errors or conflicts. Therefore, in this work, we investigate the semantic interoperation and integration of positioning systems in order to obtain the full potential of the localization ecosystem in the context of IoT. Additionally, we also validate the proposed design by means of an industrial case study, which targets fully-automated warehouses utilizing location-aware and interconnected IoT products and systems.
Highlights
Over the past few years, we have been experiencing a fast emergence of the Internet of Things (IoT), where things and objects become smart and connected [1]
We study the first design for the interoperation and integration of positioning systems by means of IoT application protocols and data models, the ones defined by Open Mobile Alliance (OMA) Lightweight Machine-to-Machine (LwM2M) [10] and Internet Protocol for Smart Objects (IPSO)
In order to validate the interoperation of localization technologies in the context of IoT, we present three use cases from the HycoWaRe project where we illustrate how the targeted functionalities can be achieved via the Lightweight M2M (LwM2M) interoperability model that we have defined
Summary
Over the past few years, we have been experiencing a fast emergence of the Internet of Things (IoT), where things and objects become smart and connected [1]. The demand for Location-Based Services (LBSs) has been rapidly expanding in many fields, such as goods/robot tracking in industry or indoor navigation for people with visual impairments, and is supported by the emergence of several powerful commercially-available localization solutions [4]. Due to their diverse positioning techniques and technologies, each localization solution has unique capabilities, limitations and varying. There are various ways to classify these technologies, this section will only provide their key aspects that are relevant to the focus of this paper
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