Simultaneous Synchronization and Detection in Loosely Synchronized Tiny Packet Networks

Zongwen Tang, P. Spasojevic, Chryssalenia Koumpouzi, F. Dagefu
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Abstract

Internet of Things (IoT) applications are anticipated to bloom in the future, and two popular industry areas related to Internet of Things (IoT) are smart houses and smart factories. To make a home or factory smart, hundreds or thousands of sensors need to work and communicate together with simple, secure and stable connectivity. Thus, the design of smart homes and smart factories relies on wireless sensor networks, whose transmission is often characterized to be sporadic. Classical approaches to multiuser communications rely on tight time synchronization achieved by employing coordinating infrastructure, but in a mass sensor transmission system, sensors may communicate with each other directly without relying on coordinating mechanisms. Our study explores the possibilities of simple and reliable multiuser detection in DS-CDMA system for few data and short distance mass sensor connectivity with joint synchronization of data. Furthermore, we discussed a scenario where spreading sequences are overused. We show that our system has strong potential for excellent mass sensors detection performance without synchronizing infrastructure.
松散同步微包网络中的同步与检测
物联网(IoT)应用预计将在未来蓬勃发展,与物联网(IoT)相关的两个热门行业领域是智能房屋和智能工厂。为了使家庭或工厂智能化,数百或数千个传感器需要通过简单,安全和稳定的连接一起工作和通信。因此,智能家居和智能工厂的设计依赖于无线传感器网络,而无线传感器网络的传输往往是零星的。多用户通信的经典方法依赖于采用协调基础设施实现的紧密时间同步,但在海量传感器传输系统中,传感器之间可以直接通信,而不依赖于协调机制。我们的研究探索了DS-CDMA系统中简单可靠的多用户检测的可能性,用于少量数据和短距离的质量传感器连接,并进行数据联合同步。此外,我们还讨论了过度使用扩展序列的场景。我们表明,我们的系统在没有同步基础设施的情况下具有出色的质量传感器检测性能的强大潜力。
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